CN114319054A - Hot-melting quick-opening type discharging valve for highway maintenance - Google Patents

Abstract

The invention discloses a hot-melting quick-opening type discharging valve for highway maintenance, which comprises a discharging valve sleeve and a driving discharging structure, wherein a material storage cylinder is spirally arranged at the top end of the discharging valve sleeve, a plurality of sealing threads are uniformly arranged on the side wall of the top end of the discharging valve sleeve, the discharging valve sleeve is in sealing connection with the material storage cylinder through the sealing threads, a supporting center shell is arranged at the center position of the discharging valve sleeve, a plurality of linkage side cavities are uniformly arranged on the side wall of the supporting center shell, the number of the linkage side cavities is three, and the driving discharging structure is arranged at the inner bottom end of the linkage side cavities. Has the advantages that: make hot melt storage prop up a section of thick bamboo and can carry out the secondary stirring to the material in the clearance of blowing, avoid the material caking, make central heating chamber and heating branch even heating, and then heat the heat preservation to the material in the hot melt storage prop up a section of thick bamboo, improved the distribution uniformity of material, can carry out a small amount of a lot of interpolation of material at three angle, improved the quick film forming of hot melt material in repairing the maintenance process, improved the work efficiency and the quality of highway maintenance.

Description

Hot-melting quick-opening type discharging valve for highway maintenance

Technical Field

The invention relates to the technical field of baiting valves, in particular to a hot-melting quick-opening baiting valve for highway maintenance.

Background

The method is characterized in that cracks of a highway need to be treated in highway maintenance, sealant needs to be injected into the cracks through a discharging valve in the prior art, damaged pavements are effectively repaired, the existing discharging valve is generally opened and plugged by a screw in and out mode, the sealant can enter a valve body, the unused sealant needs to be pushed away from the discharging valve after repair is finished, the sealant is prevented from remaining in the discharging valve and blocking the discharging valve, pressure can be accumulated on a blocking block in the discharging valve when the sealant is pushed away and discharged, the pressure is transmitted to the joint of the screw and the discharging valve through the blocking block, and the screw is easily abraded for a long time.

An effective solution to the problems in the related art has not been proposed yet.

Disclosure of Invention

The invention provides a hot-melting quick-opening type baiting valve for highway maintenance, aiming at solving the problems in the prior art.

Therefore, the invention adopts the following specific technical scheme:

the utility model provides a quick open-type baiting valve of hot melt for highway maintenance, includes blowing valve barrel and drive blowing structure, the top spiral of blowing valve barrel is equipped with the storage cylinder, the top lateral wall of blowing valve barrel evenly is equipped with a plurality of sealed threads, the blowing valve barrel with the storage cylinder passes through sealed thread sealing connects, the central point of blowing valve barrel puts and is equipped with the support center shell, the lateral wall of support center shell evenly is equipped with a plurality of linkage side chambeies, the quantity in linkage side chamber is three, the drive blowing structure is located the inside bottom in linkage side chamber.

Further, all be equipped with a hot melt storage branch section of thick bamboo between the bottom of linkage side chamber outer wall, the top of a hot melt storage branch section of thick bamboo with the bottom of storage section of thick bamboo communicates each other, the central point of a hot melt storage branch section of thick bamboo puts and is equipped with spiral heating structure, the bottom of a hot melt storage branch section of thick bamboo is close to one side bottom of drive blowing structure is equipped with the blowing insulating tube, the other end of blowing insulating tube is equipped with linkage blowing pipe, the interlude of linkage blowing pipe is located in the linkage side intracavity, the bottom central point of linkage blowing pipe puts and is equipped with the slip blowing valve, one side bottom of a hot melt storage branch section of thick bamboo is equipped with and is located the drive connection chamber of blowing insulating tube one side.

Further, the heating structure spirals and is equipped with central heating chamber, the lateral wall in central heating chamber evenly is equipped with a plurality of heating branches, central heating chamber with heating branch is hollow structure and communicates each other, the other end that heats branch is seal structure, the pure water is equipped with to the bottom in central heating chamber, the both ends in central heating chamber are seal structure, the other end that heats branch with the inner wall movable contact of a hot melt storage branch cylinder.

Further, heating branch by the bottom in center heating chamber extremely the top in center heating chamber is spiral setting in proper order, the bottom in center heating chamber is equipped with the linkage column spinner, the central point of linkage column spinner puts and is equipped with electromagnetic heating board, electromagnetic heating board's top alternates and locates the bottom in center heating chamber, the lateral wall meshing cover of linkage column spinner is equipped with the linkage belt, another pot head of linkage belt is equipped with bottom linkage post, the diameter of linkage column spinner does the half of bottom linkage post diameter, the lateral wall of bottom linkage post with linkage belt intermeshing, the top of bottom linkage post is equipped with first linkage table shape gear, top one side of first linkage table shape gear with drive blowing structure movable contact.

Furthermore, the driving discharging structure is provided with a linkage discharging structure and a rotary material taking structure, the linkage discharging structure is arranged at the bottom end of the supporting central shell, a supporting central column is arranged at the central position of the linkage discharging structure, the supporting central column is fixedly inserted at the central position of the supporting central shell, a linkage rotary sleeve is movably arranged at the bottom of the supporting central column, a plurality of linkage top convex plates are uniformly arranged at the top end of the linkage rotary sleeve, the number of the linkage top convex plates is three, a first transverse supporting rod, a second transverse supporting rod and a third transverse supporting rod are arranged between the linkage top convex plates, the first transverse supporting rod, the second transverse supporting rod and the third transverse supporting rod have the same structure, and the difference is that only the central position of one side of the first transverse supporting rod, which is close to the linkage top convex plates, is provided with a driving cavity, the material taking device comprises a linkage top convex plate, a support central column, a first transverse support rod, a rotary material taking structure, a bottom support transverse rod, a material discharging valve sleeve and a material taking valve, wherein one end of the linkage top convex plate, close to the first transverse support rod, is fixedly connected with the support central column, the other end of the linkage top convex plate is provided with an intermittent clamping structure, the other end of the intermittent clamping structure is movably arranged on the other side of the intermittent clamping structure, the bottom support transverse rod is fixedly arranged at the bottom end of the side wall of the support central column, the bottom end of the support central column is fixedly connected with the bottom center of the material discharging valve sleeve, and the other end of the bottom support transverse rod is fixedly connected with the intermittent clamping structure.

Furthermore, the driving cavity is far away from one end of the linkage top convex plate is provided with a driving cylinder, the driving cylinder is close to one end of the linkage top convex plate and is provided with an elastic linkage pull rod, the other end of the elastic linkage pull rod is fixedly connected with the center of one side of the linkage top convex plate, a transverse linkage rod is movably arranged at the top end of the linkage top convex plate, the top end of the transverse linkage rod is far away from one side of the linkage top convex plate and is provided with a material taking triggering folding rod, the other end of the material taking triggering folding rod is provided with a U-shaped push plate, the U-shaped push plate is movably connected with the sliding material discharging valve, an L-shaped linkage clamping plate is movably arranged at the other end of the transverse linkage rod, and the other end of the L-shaped linkage clamping plate is movably connected with the first transverse supporting rod.

Further, the intermittent clamping structure is provided with a central supporting block, a supporting connecting column is arranged at the bottom end of the central supporting block, the bottom end of the supporting connecting column is fixedly connected with the bottom supporting cross rod, a transverse linkage shaft is arranged at the central position of the central supporting block in an inserting mode, a first linkage rotating wheel is fixedly arranged at one end, close to the L-shaped linkage clamping plate, of the transverse linkage shaft, the side wall of the first linkage rotating wheel is uniformly provided with a plurality of linkage clamping grooves, the number of the linkage clamping grooves is four, the L-shaped linkage clamping plate is movably clamped in the linkage clamping grooves, a second linkage rotating wheel is fixedly arranged at the other end of the transverse linkage shaft, a plurality of linkage clamping columns are uniformly arranged on the side wall of the second linkage rotating wheel, the other end of each linkage clamping column is movably arranged on one side of the bottom end of the sliding discharge valve, the number of the linkage clamping columns is four, and the included angle between each linkage clamping column and the linkage clamping groove is forty-five degrees, and a second linkage table-shaped gear is arranged at the center of one side of the second linkage rotating wheel, which is far away from the first linkage rotating wheel, and the bottom end of one side of the second linkage table-shaped gear is meshed with the first linkage table-shaped gear.

Further, the rotatory central point that gets the material structure puts and is equipped with gets the material back shaft, the fixed a plurality of supports that are equipped with of lateral wall of getting the material back shaft connect the curb plate, the other end that supports and connect the curb plate is fixed to be equipped with gets a material horizontal section of thick bamboo, it locates to get a material horizontal section of thick bamboo activity card between the linkage card post, the top of getting a material horizontal section of thick bamboo is equipped with the feed inlet, the feed inlet activity is located under the slip blowing valve, the feed inlet is close to one side of linkage card post is equipped with the discharge gate, the interior activity card of discharge gate is equipped with elasticity card door, elasticity card door is close to one side of linkage card post with reset spring swing joint is passed through to the both sides of discharge gate.

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

1. because the diameter of linkage column spinner is the half of bottom linkage column diameter, and then when the second linkage runner rotated, can drive the linkage column spinner and carry out the rotation of doubling to make hot melt storage prop can carry out the secondary stirring to the material in the clearance of blowing, avoid the material caking.

2. Because central heating chamber and heating branch are hollow structure and communicate each other, and then make central heating chamber and heating branch even heating, and then heat the material in the hot melt storage branch section of thick bamboo and keep warm.

3. Because when driving linkage column spinner through the linkage belt and rotating, can drive central heating chamber and rotate, and then drive heating branch and rotate in a flexible way in hot melt storage prop, and then carry out the multi-angle heating to the material in the hot melt storage prop, the heating is even, and then has improved the heating efficiency of material, can make ejection of compact in-process keep temperature stable through the blowing insulating tube, avoids the material cooling.

4. Because the structure of first horizontal bracing piece, the horizontal bracing piece of second is the same with the horizontal bracing piece of third, and the other end of first horizontal bracing piece is equipped with intermittent type card and dunes the structure, and then drives three intermittent type card and dune the structure and rotate, has improved the distribution homogeneity of material, has avoided the material to pile up after transferring.

5. Because the quantity of linkage card post is four, and the contained angle between linkage card post and the linkage draw-in groove is forty-five degrees, gets the other end that the material triggered the folding rod and is equipped with the U-shaped catch plate, and then promotes the slip blowing valve through the U-shaped catch plate and make it open and carry out the blowing, because the feed inlet activity is located under the slip blowing valve, and then make the material pour into get in the material horizontal tube, avoided the contact of hot melt storage branch section of thick bamboo with the outside air, it is that the material after the hot melt does not receive the pollution.

6. When the driving cylinder is reset, the transverse linkage rod can be driven to reset, so as to drive the sliding discharging valve to close, meanwhile, the L-shaped linkage clamping plate is separated from the linkage clamping groove, the material taking transverse cylinder rotates downwards under the action of gravity, because one side of the elastic clamping door close to the linkage clamping column is movably connected with the two sides of the discharge hole through the reset spring, the linkage clamping column presses the elastic clamping door, thereby avoiding the leakage of the materials, when the elastic clamping door is extruded by the materials, the materials push the elastic clamping door open to dump the materials, when the material is poured, the elastic clamping door is closed through the return spring, thereby avoiding the leakage of material residues and working in sequence, and then make this device can carry out a small amount of a lot of interpolation of material many times at three angle, improved the quick film forming of hot melt material in repairing the maintenance in-process, improved the work efficiency and the quality of highway maintenance.

Drawings

In order to more clearly illustrate the embodiments of the patent of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the patent of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a hot-melt quick-open type baiting valve for road maintenance according to an embodiment of the present invention;

FIG. 2 is a top view of the internal structure of a driven discharge structure according to the present invention;

FIG. 3 is an enlarged view of a portion of the structure at A in FIG. 2;

FIG. 4 is an enlarged schematic view of a partial structure of a linkage discharge structure according to the invention;

FIG. 5 is an enlarged view of a portion of the structure at B in FIG. 4;

FIG. 6 is an enlarged schematic view of a portion of an intermittent stuck structure according to the present invention;

fig. 7 is a side view of a rotary take off structure according to the present invention.

In the figure:

1. a discharging valve sleeve; 2. driving a discharging structure; 3. sealing the threads; 4. supporting the center housing; 5. a linkage side cavity; 6. a hot melting storage branch cylinder; 7. a spiral heating structure; 8. discharging a heat preservation pipe; 9. discharging pipes in a linkage manner; 10. a drive connection cavity; 11. a central heating cavity; 12. heating the supporting rod; 13. a linkage belt; 14. a first linkage table gear; 15. a linkage material discharging structure; 16. rotating the material taking structure; 17. A support center post; 18. a linkage rotary sleeve; 19. linking the top convex plate; 20. a first transverse support bar; 21. a second transverse support bar; 22. a third transverse support bar; 23. a drive chamber; 24. an intermittent stuck structure; 25. a bottom support rail; 26. an elastic linkage pull rod; 27. a transverse linkage rod; 28. Taking a material to trigger the folding rod; 29. a U-shaped push plate; 30. an L-shaped linkage clamping plate; 31. a central support block; 32. a support connection column; 33. a first linkage runner; 34. a linkage clamping groove; 35. a second linkage wheel; 36. linkage clamping columns; 37. a second linkage table gear; 38. taking a material supporting shaft; 39. supporting and connecting the side plates; 40. taking a material transverse cylinder; 41. a feed inlet; 42. a discharge port; 43. the elasticity card door.

Detailed Description

For further explanation of the various embodiments, the drawings which form a part of the disclosure and which are incorporated in and constitute a part of this specification, illustrate embodiments and, together with the description, serve to explain the principles of operation of the embodiments, and to explain, by reference, other possible embodiments and advantages of the invention.

Example one

As shown in fig. 1-3:

the invention provides a structural schematic diagram of a hot-melting quick-opening type baiting valve for highway maintenance, which comprises a material discharging valve sleeve 1 and a driving material discharging structure 2, wherein the top end of the material discharging valve sleeve 1 is spirally provided with a material storage cylinder, the side wall of the top end of the material discharging valve sleeve 1 is uniformly provided with a plurality of sealing threads 3, the material discharging valve sleeve 1 is hermetically connected with the material storage cylinder through the sealing threads 3, the central position of the material discharging valve sleeve 1 is provided with a supporting central shell 4, the side wall of the supporting central shell 4 is uniformly provided with a plurality of linkage side cavities 5, the number of the linkage side cavities 5 is three, the driving material discharging structure 2 is arranged at the inner bottom end of the linkage side cavities 5, material storing hot-melting support cylinders 6 are arranged between the bottom ends of the outer walls of the linkage side cavities 5, the top ends of the hot-melting material storing support cylinders 6 are mutually communicated with the bottom end of the material storage cylinder, and the central position of the hot-melting material storing support cylinders 6 is provided with a spiral heating structure 7, the bottom end of the hot melt storage branch cylinder 6 is close to the bottom end of one side of the driving discharging structure 2 and is provided with a discharging heat-insulating pipe 8, the other end of the discharging heat-insulating pipe 8 is provided with a linkage discharging pipe 9, the linkage discharging pipe 9 is arranged in the linkage side cavity 5 in an alternating manner, the bottom center position of the linkage discharging pipe 9 is provided with a sliding discharging valve, the bottom end of one side of the hot melt storage branch cylinder 6 is provided with a driving connecting cavity 10 positioned on one side of the discharging heat-insulating pipe 8, the discharging heat-insulating pipe 8 can keep the temperature stable in the discharging process and avoid the cooling of materials, the spiral heating structure 7 is provided with a center heating cavity 11, the side wall of the center heating cavity 11 is uniformly provided with a plurality of heating support rods 12, the center heating cavity 11 and the heating support rods 12 are both in a hollow structure and are communicated with each other, and the other end of the heating support rods 12 is a sealing structure, the pure water is equipped with to the bottom of center heating chamber 11, the both ends of center heating chamber 11 are seal structure, the other end of heating branch 12 with the inner wall movable contact of a hot melt storage section of thick bamboo 6, heating branch 12 by the bottom of center heating chamber 11 extremely the top of center heating chamber 11 is the spiral setting in proper order, the bottom of center heating chamber 11 is equipped with the linkage column spinner, the central point of linkage column spinner puts and is equipped with electromagnetic heating board, electromagnetic heating board's top alternates to be located the bottom of center heating chamber 11, the lateral wall meshing cover of linkage column spinner is equipped with linkage belt 13, the other pot head of linkage belt 13 is equipped with the bottom linkage column, the diameter of linkage column spinner is the half of bottom linkage column diameter, the lateral wall of bottom linkage column with linkage belt 13 intermeshing, the top end of the bottom linkage column is provided with a first linkage table-shaped gear 14, one side of the top end of the first linkage table-shaped gear 14 is in movable contact with the driving material-discharging structure 2, purified water in the central heating cavity 11 is heated through the electromagnetic heating plate, and water vapor is evaporated, because the central heating cavity 11 and the heating support rod 12 are both hollow structures and are communicated with each other, the central heating cavity 11 and the heating support rod 12 are uniformly heated, and materials in the hot melt storage branch cylinder 6 are heated and insulated, because the heating support rod 12 is spirally arranged from the bottom end of the central heating cavity 11 to the top end of the central heating cavity 11 in sequence, when the linkage rotary column is driven by the linkage belt 13 to rotate, the central heating cavity 11 can be driven to rotate, and then the heating support rod 12 is driven to flexibly rotate in the hot melt storage branch cylinder 6, the material in the hot melt storage branch cylinder 6 is heated in multiple angles, the heating is uniform, the heating efficiency of the material is further improved, the intermittent clamping structure 24 is provided with a central supporting block 31, the bottom end of the central supporting block 31 is provided with a supporting connecting column 32, the bottom end of the supporting connecting column 32 is fixedly connected with the bottom supporting cross bar 25, the central position of the central supporting block 31 is provided with a transverse linkage shaft in an inserting manner, one end of the transverse linkage shaft, which is close to the L-shaped linkage clamping plate 30, is fixedly provided with a first linkage rotating wheel 33, the side wall of the first linkage rotating wheel 33 is uniformly provided with a plurality of linkage clamping grooves 34, the number of the linkage clamping grooves 34 is four, the L-shaped linkage clamping plate 30 is movably clamped in the linkage clamping grooves 34, the other end of the transverse linkage shaft is fixedly provided with a second linkage rotating wheel 35, the side wall of the second linkage rotating wheel 35 is uniformly provided with a plurality of linkage clamping columns 36, the other end of the linkage clamping column 36 is movably arranged on one side of the bottom end of the sliding discharging valve, the number of the linkage clamping columns 36 is four, the included angle between the linkage clamping column 36 and the linkage clamping groove 34 is forty-five degrees, a second linkage table-shaped gear 37 is arranged at the central position of one side of the second linkage rotating wheel 35, which is far away from the first linkage rotating wheel 33, the bottom end of one side of the second linkage table-shaped gear 37 is meshed with the first linkage table-shaped gear 14, when the second linkage rotating wheel 35 rotates, the second linkage table-shaped gear 37 can be driven to rotate, and then the first linkage table-shaped gear 14 is driven to rotate, because the bottom end of the first linkage table-shaped gear 14 is provided with the bottom linkage column, the bottom linkage column is linked with the linkage rotating column through the linkage belt 13, and the diameter of the linkage rotating column is half of the diameter of the bottom linkage column, and then when second linkage runner 35 rotates, can drive the linkage column spinner doubles and rotates to make hot melt storage branch 6 can carry out the even heating of secondary to the material when the blowing.

The detailed usage and function of the first embodiment: when the second linkage rotating wheel 35 rotates, the second linkage table-shaped gear 37 can be driven to rotate, and then the first linkage table-shaped gear 14 is driven to rotate, because the bottom end of the first linkage table-shaped gear 14 is provided with a bottom linkage column, the bottom linkage column is linked with a linkage rotary column through a linkage belt 13, the diameter of the linkage rotary column is half of the diameter of the bottom linkage column, and then when the second linkage rotating wheel 35 rotates, the linkage rotary column can be driven to rotate in a doubling way, so that the hot melt storage branch cylinder 6 can secondarily stir materials in the discharging gap, the materials are prevented from caking, meanwhile, purified water in the central heating cavity 11 is heated through an electromagnetic heating plate, and then water is evaporated, because the central heating cavity 11 and the heating support rod 12 are both of hollow structures and are mutually communicated, and further the central heating cavity 11 and the heating support rod 12 are uniformly heated, and then heat the heat preservation to the material in the hot melt storage prop 6, because heating branch 12 is by the bottom of central heating chamber 11 to the top of central heating chamber 11 spiral setting in proper order, when driving the linkage column spinner through linkage belt 13 and rotating, can drive central heating chamber 11 and rotate, and then drive heating branch 12 and rotate in a flexible way in hot melt storage prop 6, and then carry out the multi-angle heating to the material in the hot melt storage prop 6, the heating is even, and then the heating efficiency of material has been improved, can make ejection of compact in-process keep temperature stable through blowing insulating tube 8, avoid the material cooling.

Example two

As shown in fig. 1-2 and fig. 4-7:

the invention provides a structural schematic diagram of a hot-melting quick-opening type discharging valve for highway maintenance, which comprises a discharging valve sleeve 1 and a driving discharging structure 2, wherein a material storage cylinder is spirally arranged at the top end of the discharging valve sleeve 1, a plurality of sealing threads 3 are uniformly arranged on the side wall of the top end of the discharging valve sleeve 1, the discharging valve sleeve 1 is hermetically connected with the material storage cylinder through the sealing threads 3, a supporting central shell 4 is arranged at the central position of the discharging valve sleeve 1, a plurality of linkage side cavities 5 are uniformly arranged on the side wall of the supporting central shell 4, the number of the linkage side cavities 5 is three, the driving discharging structure 2 is arranged at the inner bottom end of the linkage side cavities 5, the driving discharging structure 2 is provided with a linkage discharging structure 15 and a rotary material taking structure 16, the linkage discharging structure 15 is arranged at the bottom end of the supporting central shell 4, and a supporting central column 17 is arranged at the central position of the linkage discharging structure 15, the supporting center column 17 is fixedly inserted in the center of the supporting center shell 4, the bottom of the supporting center column 17 is movably provided with a linkage rotating sleeve 18, the top end of the linkage rotating sleeve 18 is uniformly provided with a plurality of linkage top convex plates 19, the number of the linkage top convex plates 19 is three, a first transverse support rod 20, a second transverse support rod 21 and a third transverse support rod 22 are arranged between the linkage top convex plates 19, the first transverse support rod 20, the second transverse support rod 21 and the third transverse support rod 22 have the same structure, the difference is that only the center of one side of the first transverse support rod 20 close to the linkage top convex plates 19 is provided with a driving cavity 23, one end of the first transverse support rod 20 close to the linkage top convex plates 19 is fixedly connected with the supporting center column 17, and the other end of the first transverse support rod 20 is provided with an intermittent clamping structure 24, the other side of the intermittent clamping structure 24 is movably provided with the rotary material taking structure 16, the bottom end of the side wall of the supporting central column 17 is fixedly provided with a bottom supporting cross rod 25, the bottom end of the supporting central column 17 is fixedly connected with the bottom center position of the material discharging valve sleeve 1, the other end of the bottom supporting cross rod 25 is fixedly connected with the intermittent clamping structure 24, the supporting central column 17 is fixedly inserted in the center position of the supporting central shell 4, so that the stability of the linkage material discharging structure 15 is improved, the bottom end of the side wall of the supporting central column 17 is fixedly provided with a bottom supporting cross rod 25, the bottom end of the supporting central column 17 is fixedly connected with the bottom center position of the material discharging valve sleeve 1, the other end of the bottom supporting cross rod 25 is fixedly connected with the intermittent clamping structure 24, and the intermittent clamping structure 24 can be fixedly supported through the bottom supporting cross rod 25, the stability of the first transverse supporting rod 20, the second transverse supporting rod 21 and the third transverse supporting rod 22 is improved, one end of the driving cavity 23 far away from the linkage top convex plate 19 is provided with a driving cylinder, one end of the driving cylinder close to the linkage top convex plate 19 is provided with an elastic linkage pull rod 26, the other end of the elastic linkage pull rod 26 is fixedly connected with the center of one side of the linkage top convex plate 19, the top end of the linkage top convex plate 19 is movably provided with a transverse linkage rod 27, one side of the top end of the transverse linkage rod 27 far away from the linkage top convex plate 19 is provided with a material taking triggering folding rod 28, the other end of the material taking triggering folding rod 28 is provided with a U-shaped pushing plate 29, the U-shaped pushing plate 29 is movably connected with the sliding material discharging valve, and the other end of the transverse linkage rod 27 is movably provided with an L-shaped linkage clamping plate 30, the other end of the L-shaped linkage clamping plate 30 is movably connected with the first transverse supporting rod 20, the other end of the elastic linkage pull rod 26 is fixedly connected with the center position of one side of the linkage top convex plate 19, the elastic linkage pull rod 26 is pushed by a driving cylinder, so that the elastic linkage pull rod 26 pushes the linkage top convex plate 19 to rotate, and then the linkage rotary sleeve 18 is driven to rotate, so that the transverse linkage rod 27 is driven to rotate, because the first transverse supporting rod 20, the second transverse supporting rod 21 and the third transverse supporting rod 22 have the same structure, the other end of the first transverse supporting rod 20 is provided with an intermittent clamping structure 24, so that the three intermittent clamping structures 24 are driven to rotate, the distribution uniformity of materials is improved, the materials are prevented from being accumulated, and the intermittent clamping structure 24 is provided with a center supporting block 31, the bottom end of the central supporting block 31 is provided with a supporting connection column 32, the bottom end of the supporting connection column 32 is fixedly connected with the bottom supporting cross bar 25, a transverse linkage shaft is inserted into the central position of the central supporting block 31, one end of the transverse linkage shaft, which is close to the L-shaped linkage clamping plate 30, is fixedly provided with a first linkage rotating wheel 33, the side wall of the first linkage rotating wheel 33 is uniformly provided with a plurality of linkage clamping grooves 34, the number of the linkage clamping grooves 34 is four, the L-shaped linkage clamping plate 30 is movably clamped in the linkage clamping grooves 34, the other end of the transverse linkage shaft is fixedly provided with a second linkage rotating wheel 35, the side wall of the second linkage rotating wheel 35 is uniformly provided with a plurality of linkage clamping columns 36, the other end of the linkage clamping column 36 is movably arranged on one side of the bottom end of the sliding discharge valve, the number of the linkage clamping columns 36 is four, and the included angle between the linkage clamping column 36 and the linkage clamping groove 34 is forty-five degrees, a second linkage table-shaped gear 37 is arranged at the center of one side of the second linkage rotating wheel 35 far away from the first linkage rotating wheel 33, the bottom end of one side of the second linkage table-shaped gear 37 is meshed with the first linkage table-shaped gear 14, a material taking support shaft 38 is arranged at the center of the rotary material taking structure 16, a plurality of support connecting side plates 39 are fixedly arranged on the side wall of the material taking support shaft 38, a material taking transverse cylinder 40 is fixedly arranged at the other end of the support connecting side plate 39, the material taking transverse cylinder 40 is movably clamped between the linkage clamping columns 36, a feed inlet 41 is arranged at the top end of the material taking transverse cylinder 40, the feed inlet 41 is movably arranged under the sliding material discharging valve, a discharge port 42 is arranged at one side of the feed inlet 41 close to the linkage clamping column 36, an elastic clamping door 43 is movably clamped in the discharge port 42, one side of the elastic clamping door 43 close to the linkage clamping column 36 is movably connected with the two sides of the discharge port 42 through a return spring, because the number of the linkage clamping columns 36 is four, the included angle between the linkage clamping columns 36 and the linkage clamping grooves 34 is forty-five degrees, when the transverse linkage rod 27 pushes the L-shaped linkage clamping plate 30 to be movably clamped in the linkage clamping grooves 34, the linkage clamping columns 36 can just stabilize and clamp the material taking transverse cylinder 40, because the other end of the linkage clamping column 36 is movably arranged at one side of the bottom end of the sliding material discharging valve, one side of the top end of the transverse linkage rod 27, which is far away from the linkage top convex plate 19, is provided with a material taking triggering folding rod 28, the other end of the material taking triggering folding rod 28 is provided with a U-shaped pushing plate 29, the U-shaped pushing plate 29 is movably connected with the sliding material discharging valve, and then the sliding material discharging valve is pushed to be opened through the U-shaped pushing plate 29 for discharging, and because the feeding port 41 is movably arranged under the sliding material discharging valve, and then the material is poured into the material taking transverse cylinder 40, when the driving cylinder is reset, the transverse linkage rod 27 can be driven to reset, so as to drive the sliding discharging valve to close, and simultaneously the L-shaped linkage clamping plate 30 is separated from the linkage clamping groove 34, under the action of gravity, the material taking transverse cylinder 40 rotates downwards, because one side of the elastic clamping door 43 close to the linkage clamping column 36 is movably connected with two sides of the discharging hole 42 through a reset spring, so that the linkage clamping column 36 presses the elastic clamping door 43, thereby avoiding material leakage, when the elastic clamping door 43 is extruded by the material, the material pushes the elastic clamping door 43 open to dump the material, after the dumping of the material is finished, the elastic clamping door 43 is closed through the reset spring, thereby avoiding material residue leakage, the material works in sequence, and further the device can add a small amount of material for multiple times at three angles, the quick film forming of the hot-melt material in the repairing and maintaining process is improved, and the working efficiency and the quality of highway maintenance are improved.

The detailed application method and function of the second embodiment: because the supporting center post 17 is fixedly inserted in the center of the supporting center shell 4, the stability of the linkage material discharging structure 15 is improved, because the bottom end of the side wall of the supporting center post 17 is fixedly provided with the bottom supporting cross rod 25, the bottom end of the supporting center post 17 is fixedly connected with the bottom center of the material discharging valve sleeve 1, the other end of the bottom supporting cross rod 25 is fixedly connected with the intermittent clamping structure 24, the intermittent clamping structure 24 can be fixedly supported by the bottom supporting cross rod 25, the stability of the first transverse supporting rod 20, the second transverse supporting rod 21 and the third transverse supporting rod 22 is improved, the elastic linkage pull rod 26 is pushed by the driving cylinder, the elastic linkage pull rod 26 pushes the linkage top convex plate 19 to rotate, then the linkage rotary sleeve 18 is driven to rotate, thereby the transverse linkage rod 27 is driven to rotate, and because the first transverse supporting rod 20, The structure of the second transverse supporting rod 21 is the same as that of the third transverse supporting rod 22, the other end of the first transverse supporting rod 20 is provided with the intermittent clamping structure 24, so as to drive the three intermittent clamping structures 24 to rotate, the distribution uniformity of materials is improved, the material accumulation is avoided, because the number of the linkage clamping columns 36 is four, the included angle between the linkage clamping columns 36 and the linkage clamping grooves 34 is forty-five degrees, when the transverse linkage rod 27 pushes the L-shaped linkage clamping plate 30 to be movably clamped in the linkage clamping grooves 34, the linkage clamping columns 36 can just stably clamp the material taking transverse cylinder 40, because the other end of the linkage clamping columns 36 is movably arranged at one side of the bottom end of the sliding discharging valve, one side of the top end of the transverse linkage rod 27, which is far away from the linkage top convex plate 19, is provided with the material taking triggering folding rod 28, the other end of the material taking triggering folding rod 28 is provided with the U-shaped pushing plate 29, and the U-shaped pushing plate 29 is movably connected with the sliding discharging valve, the sliding discharging valve is pushed by the U-shaped pushing plate 29 to be opened for discharging, the material inlet 41 is movably arranged right below the sliding discharging valve, so that the material is poured into the material taking transverse cylinder 40, when the driving cylinder is reset, the transverse linkage rod 27 can be driven to reset, so that the sliding discharging valve is driven to be closed, the L-shaped linkage clamping plate 30 is separated from the linkage clamping groove 34, the material taking transverse cylinder 40 rotates downwards under the action of gravity, one side of the elastic clamping door 43 close to the linkage clamping column 36 is movably connected with two sides of the material outlet 42 through a return spring, so that the linkage clamping column 36 presses the elastic clamping door 43, further the material leakage is avoided, when the elastic clamping door 43 is extruded by the material, the material pushes the elastic clamping door 43 open to dump the material, after the dumping of the material is finished, the elastic clamping door 43 is closed through the return spring, further the leakage of the material residue is avoided, work in proper order, and then make this device can carry out a small amount of a lot of interpolation of material many times at three angle, improved the quick film forming of hot melt material in repairing the maintenance process, improved the work efficiency and the quality of highway maintenance.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the present invention, and any modifications, equivalents, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (8)

1. The utility model provides a quick open-type baiting valve of hot melt for highway maintenance, a serial communication port, including blowing valve barrel (1) and drive blowing structure (2), the top spiral of blowing valve barrel (1) is equipped with the storage cylinder, the top lateral wall of blowing valve barrel (1) evenly is equipped with a plurality of sealed screw threads (3), blowing valve barrel (1) with the storage cylinder passes through sealed screw thread (3) sealing connection, the central point of blowing valve barrel (1) puts and is equipped with support center shell (4), the lateral wall of support center shell (4) evenly is equipped with a plurality of linkage side chamber (5), the quantity of linkage side chamber (5) is three, drive blowing structure (2) are located the inside bottom of linkage side chamber (5).

2. The hot melt quick-open type baiting valve for road maintenance according to claim 1, a hot melt storage branch cylinder (6) is arranged between the bottom ends of the outer walls of the linkage side cavities (5), the top end of the hot melt storage branch cylinder (6) is communicated with the bottom end of the storage cylinder, a spiral heating structure (7) is arranged at the central position of the hot melt storage branch cylinder (6), a discharging heat-insulating pipe (8) is arranged at the bottom end of one side of the bottom end of the hot-melt storing branch cylinder (6) close to the driving discharging structure (2), the other end of the discharging heat-insulating pipe (8) is provided with a linkage discharging pipe (9), the linkage discharging pipe (9) is inserted into the linkage side cavity (5), the bottom central point of linkage blowing pipe (9) puts and is equipped with the slip blowing valve, one side bottom of hot melt storage branch section of thick bamboo (6) is equipped with and is located drive connection chamber (10) of blowing insulating tube (8) one side.

3. The hot-melt quick-opening type baiting valve for road maintenance according to claim 1, characterized in that the spiral heating structure (7) is provided with a central heating cavity (11), the side wall of the central heating cavity (11) is uniformly provided with a plurality of heating struts (12), the central heating cavity (11) and the heating struts (12) are both hollow structures and are communicated with each other, the other ends of the heating struts (12) are sealed structures, the bottom of the central heating cavity (11) is filled with purified water, both ends of the central heating cavity (11) are sealed structures, and the other ends of the heating struts (12) are in movable contact with the inner wall of the hot-melt storage support cylinder (6).

4. The hot-melt quick-opening type baiting valve for road maintenance according to claim 1, characterized in that the heating support rod (12) is spirally arranged from the bottom end of the central heating cavity (11) to the top end of the central heating cavity (11) in sequence, a linkage rotary column is arranged at the bottom end of the central heating cavity (11), an electromagnetic heating plate is arranged at the central position of the linkage rotary column, the top end of the electromagnetic heating plate is alternately arranged at the bottom of the central heating cavity (11), a linkage belt (13) is sleeved on the side wall of the linkage rotary column, a bottom linkage column is sleeved at the other end of the linkage belt (13), the diameter of the linkage rotary column is half of the diameter of the bottom linkage column, the side wall of the bottom linkage column is mutually meshed with the linkage belt (13), a first linkage table-shaped gear (14) is arranged at the top end of the bottom linkage column, one side of the top end of the first linkage table-shaped gear (14) is movably contacted with the driving discharging structure (2).

5. The hot-melt quick-opening type emptying valve for highway maintenance according to claim 1, wherein the driving emptying structure (2) is provided with a linkage emptying structure (15) and a rotary material taking structure (16), the linkage emptying structure (15) is arranged at the bottom end of the supporting central shell (4), a supporting central column (17) is arranged at the central position of the linkage emptying structure (15), the supporting central column (17) is fixedly inserted into the central position of the supporting central shell (4), a linkage rotary sleeve (18) is movably arranged at the bottom of the supporting central column (17), a plurality of linkage top convex plates (19) are uniformly arranged at the top end of the linkage rotary sleeve (18), the number of the linkage top convex plates (19) is three, a first transverse supporting rod (20), a second transverse supporting rod (21) and a third transverse supporting rod (22) are arranged between the linkage top convex plates (19), the structure of the first transverse support rod (20), the structure of the second transverse support rod (21) and the structure of the third transverse support rod (22) are the same, the difference is that only the center position of one side of the first transverse support rod (20) close to the linkage top convex plate (19) is provided with a driving cavity (23), one end of the first transverse support rod (20) close to the linkage top convex plate (19) is fixedly connected with the support central column (17), the other end of the first transverse support rod (20) is provided with an intermittent clamping structure (24), the other side of the intermittent clamping structure (24) is movably provided with the rotary material taking structure (16), the bottom end of the side wall of the support central column (17) is fixedly provided with a bottom support cross rod (25), and the bottom end of the support central column (17) is fixedly connected with the center position of the bottom end of the material discharging valve sleeve (1), the other end of the bottom supporting cross rod (25) is fixedly connected with the intermittent clamping structure (24).

6. The hot-melt quick-opening type discharging valve for road maintenance according to claim 1, wherein a driving cylinder is arranged at one end of the driving cavity (23) far away from the linkage top convex plate (19), an elastic linkage pull rod (26) is arranged at one end of the driving cylinder close to the linkage top convex plate (19), the other end of the elastic linkage pull rod (26) is fixedly connected with the center of one side of the linkage top convex plate (19), a transverse linkage rod (27) is movably arranged at the top end of the linkage top convex plate (19), a discharging triggering folding rod (28) is arranged at one side of the top end of the transverse linkage rod (27) far away from the linkage top convex plate (19), a U-shaped pushing plate (29) is arranged at the other end of the discharging triggering folding rod (28), the U-shaped pushing plate (29) is movably connected with the sliding discharging valve, an L-shaped linkage clamping plate (30) is movably arranged at the other end of the transverse linkage rod (27), the other end of the L-shaped linkage clamping plate (30) is movably connected with the first transverse supporting rod (20).

7. The hot-melt quick-opening type baiting valve for road maintenance according to claim 1, wherein the intermittent clamping structure (24) is provided with a central supporting block (31), a supporting connection column (32) is arranged at the bottom end of the central supporting block (31), the bottom end of the supporting connection column (32) is fixedly connected with the bottom supporting cross bar (25), a transverse linkage shaft is inserted into the central position of the central supporting block (31), a first linkage rotating wheel (33) is fixedly arranged at one end of the transverse linkage shaft close to the L-shaped linkage clamping plate (30), a plurality of linkage clamping grooves (34) are uniformly arranged on the side wall of the first linkage rotating wheel (33), the number of the linkage clamping grooves (34) is four, the L-shaped linkage clamping plate (30) is movably clamped in the linkage clamping grooves (34), and a second linkage rotating wheel (35) is fixedly arranged at the other end of the transverse linkage shaft, the lateral wall of second linkage runner (35) evenly is equipped with a plurality of linkage card posts (36), the other end activity of linkage card post (36) is located bottom one side of slip blowing valve, the quantity of linkage card post (36) is four, linkage card post (36) with contained angle between linkage draw-in groove (34) is forty-five degrees, second linkage runner (35) are kept away from one side central point of first linkage runner (33) puts and is equipped with second linkage platform shape gear (37), one side bottom of second linkage platform shape gear (37) with first linkage platform shape gear (14) intermeshing.

8. The hot melt quick-open type baiting valve for road maintenance according to claim 1, a material taking support shaft (38) is arranged at the center of the rotary material taking structure (16), a plurality of supporting and connecting side plates (39) are fixedly arranged on the side wall of the material taking supporting shaft (38), a material taking transverse cylinder (40) is fixedly arranged at the other end of the supporting and connecting side plate (39), the material taking transverse cylinder (40) is movably clamped between the linkage clamping columns (36), a material inlet (41) is formed in the top end of the material taking transverse cylinder (40), the feed inlet (41) is movably arranged right below the sliding discharge valve, a discharge outlet (42) is arranged at one side of the feed inlet (41) close to the linkage clamping column (36), the movable clamp is provided with an elastic clamping door (43) in the discharge port (42), and the elastic clamping door (43) is close to one side of the linkage clamping column (36) and two sides of the discharge port (42) are movably connected through a return spring.

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