CN112057903A

CN112057903A - Anti-blocking filter for processing non-road mechanical catalyst

Info

Publication number: CN112057903A
Application number: CN202010938530.6A
Authority: CN
Inventors: 张治悦
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-09
Filing date: 2020-09-09
Publication date: 2020-12-11

Abstract

The invention discloses an anti-clogging filter for processing a non-road mechanical catalyst, which structurally comprises a support, a main body and a pressure gauge, wherein the main body is welded in the middle of the support, the pressure gauge is arranged at the top of the main body, the main body comprises a discharge hole, a heating cavity, a defoaming device, a filter screen, a blanking device and a buoy, the blanking device comprises a blanking hole, a material clamping device, a roller group and a steel wire pipe, the material clamping device comprises a sliding groove, a material clamping plate, a clamping groove and a connecting rod, the material clamping plate comprises a rolling groove, a clamping plate, a rolling wheel and a return spring, the invention drives a large roller in the roller group to rotate by downwards moving the buoy, so that a small roller pulls the connecting rod backwards through the steel wire to drive the material clamping plate to be separated from the blanking hole, the blanking hole is opened for blanking, when the material clamping plate moves upwards on the buoy to close the blanking, the bubbles existing among the particles are reduced in pressure, and are bubbled upwards, so that the bubbles existing in the catalyst solution are avoided.

Description

Anti-blocking filter for processing non-road mechanical catalyst

Technical Field

The invention relates to the field of engineering machinery, in particular to an anti-blocking filter for processing a non-road mechanical catalyst.

Background

Need add the catalyst in road asphalt's the production process and react for pitch lays subaerial just can improve the quality of air on the road, and the principal ingredients in the catalyst is titanium dioxide, and titanium dioxide is the white solid, need heat when using and dissolve, just can reach the effect with pitch mixture, so utilize the catalyst filter to come to separate for the granule that dissolves, avoid the granule that does not dissolve to contact the reaction effect of influence and pitch with pitch.

Based on the discovery of the inventor, the existing filter for processing the non-road mechanical catalyst with the blockage prevention mainly has the following defects, such as: the catalyst is placed in the dissolving furnace and is heated and dissolved, and the liquid after dissolving is in a sticky state, so that air existing between particles after dissolving can form bubbles, the bubbles can be detained between solutions under pressure, and the isolation reaction of the catalyst and the asphalt is insufficient due to the bubbles.

Disclosure of Invention

Aiming at the problems, the invention provides an anti-clogging filter for processing non-road mechanical catalysts.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a prevent filter for processing of non-road machinery catalyst of jam, its structure includes support, main part, manometer, the welding has the main part in the middle of the centre of support, the manometer sets up the top in the main part, the main part includes discharge gate, heating chamber, removes bubble device, filter screen, unloader, buoy, the discharge gate sets up the bottom in the main part, the heating chamber is located the inside in the middle of the main part, it is located the bottom in heating chamber to remove the bubble device, the filter screen is arranged in and is removed the bubble device under, unloader installs the top in heating chamber, the buoy block is in the inside in heating chamber, and is connected with unloader through the steel wire.

Furthermore, unloader includes unloading hole, card material device, roller train, steel wire pipe, the unloading hole is rectangular form, is equipped with more than ten, and transverse arrangement in unloader, card material device installs the side in the unloading hole, the roller train sets up the rear end at card material device, the steel wire pipe inlays the bottom at unloader, including big gyro wheel and lower gyro wheel in the roller train, and little gyro wheel is connected through the steel wire with card material device.

Furthermore, the material clamping device comprises a sliding groove, a material clamping plate, a clamping groove and a connecting rod, the sliding groove is located at the side end of the discharging hole, the material clamping plate is clamped in the sliding groove, the clamping groove is located at the other side end of the discharging hole, the connecting rod is clamped in the clamping groove, the connecting rod is connected with a pinion in the roller set through a steel wire, and the connecting rod is connected with the top of the material clamping plate.

Furthermore, the material clamping plate comprises two rolling grooves, two clamping plates, two rolling wheels and a reset spring, the two rolling grooves are formed in the top end of the material clamping plate and connected through a rotating shaft, the rolling wheels are clamped in the rolling grooves and connected with the tail ends of the clamping plates, the reset spring is installed in the rolling grooves and movably matched with the rolling wheels, and an included angle formed between the two clamping plates is 90 degrees when the material clamping plate is not opened.

Further, remove the bubble device and include through-material hole, venthole, air vent, guide block, through-material hole is equipped with more than ten, and arranges in removing the bubble device around, the venthole is equipped with more than ten, arranges in the side of through-material hole around, and is linked together with through-material hole, the air vent sets up the rear end at the venthole, and is linked together with the venthole, the guide block is located the top of removing the bubble device, the inboard of guide block is circular-arcly, venthole slope 80 degrees.

Further, the venthole includes dam device, thorn bubble board, gas pocket, thorn bubble needle, dam device sets up in the positive centre of inside of venthole, thorn bubble board inlays the front end at the venthole, the gas pocket is equipped with more than ten, and installs perpendicularly in the positive centre of inside of thorn bubble board, thorn bubble needle sets up between two liang of gas pockets, thorn bubble needle is sharp-pointed shape.

Further, dam device includes mounting groove, bouncing ball, baffle, the mounting groove is equipped with two, and is located dam device's last lower extreme respectively, the bouncing ball is equipped with more than ten, and two liang of installations in the mounting groove, the baffle is equipped with two, and block respectively in the mounting groove to with bouncing ball movable fit, the baffle is sunken to the centre by both ends.

Advantageous effects

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

1. according to the invention, the buoy moves downwards to drive the large idler wheel in the idler wheel group to rotate, so that the small idler wheel pulls the connecting rod backwards through the steel wire, the material clamping plate is driven to be separated from the discharging hole, the discharging hole is opened for discharging, when the material clamping plate is moved upwards on the buoy to close the discharging hole, quantitative discharging can be carried out for dissolving, the pressure on bubbles existing among particles is reduced, and bubbles are upwards generated, so that the bubbles existing in a catalyst solution are avoided.

2. According to the invention, the bubble is guided to the air hole through the bubble pricking plate, so that the bubble can flow to the upper end of the air outlet hole, and the baffle is pushed to open through the air pressure, so that the gas is discharged from the air vent, and the condition that the reaction with asphalt is influenced due to the retention of the bubble in the catalyst solution is avoided.

Drawings

FIG. 1 is a schematic diagram of a front view of a filter for anti-clogging non-road mechanical catalyst processing according to the present invention.

Fig. 2 is a schematic cross-sectional structure of the present invention.

Fig. 3 is a schematic sectional structure view of the blanking device of the present invention.

Fig. 4 is an enlarged structural diagram of a in fig. 3 according to the present invention.

Fig. 5 is a schematic cross-sectional structure view of the material clamping plate of the present invention.

Fig. 6 is a schematic sectional structure view of the bubble removing device of the present invention.

FIG. 7 is a schematic cross-sectional view of the vent hole of the present invention.

Fig. 8 is a schematic cross-sectional structure view of the material blocking device of the present invention.

In the figure: the device comprises a bracket 1, a main body 2, a pressure gauge 3, a discharge port 21, a heating cavity 22, a defoaming device 23, a filter screen 24, a blanking device 25, a buoy 26, a blanking hole 251, a material clamping device 252, a roller group 253, a steel wire pipe 254, a sliding groove a1, a material clamping plate a2, a clamping groove a3, a connecting rod a3, a rolling groove a21, a clamping plate a22, a rolling wheel a23, a return spring a24, a material passing hole 231, an air outlet hole 232, an air vent 233, a material guide block 234, a material stopping device b1, a foam pricking plate b2, an air hole b3, a foam pricking needle b4, a mounting groove b11, an elastic ball b12 and a baffle b 13.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

The first embodiment is as follows: referring to fig. 1-5, the embodiments of the present invention are as follows:

its structure includes support 1, main part 2, manometer 3, the welding of support 1 has main part 2 in the middle of the positive, manometer 3 sets up the top in main part 2, main part 2 includes discharge gate 21, heating chamber 22, removes bubble device 23, filter screen 24, unloader 25, buoy 26, discharge gate 21 sets up the bottom in main part 2, heating chamber 22 is located the inside in the middle of main part 2, it is located the bottom of heating chamber 22 to remove bubble device 23, filter screen 24 is arranged in under removing bubble device 23, unloader 25 installs the top at heating chamber 22, buoy 26 block is in the inside of heating chamber 22, and is connected with unloader 25 through the steel wire.

The blanking device 25 comprises a blanking hole 251, a material clamping device 252, a roller group 253 and a steel wire pipe 254, wherein the blanking hole 251 is long and is provided with more than ten materials and is transversely arranged in the blanking device 25, the material clamping device 252 is arranged at the side end of the blanking hole 251, the roller group 253 is arranged at the rear end of the material clamping device 252, the steel wire pipe 254 is embedded at the bottom end of the blanking device 25, the roller group 253 comprises a large roller and a lower roller, and the small roller is connected with the material clamping device 252 through a steel wire, so that the material clamping device 252 can be driven to move, and the blanking hole 251 is opened for blanking.

The material clamping device 252 comprises a sliding groove a1, a material clamping plate a2, a clamping groove a3 and a connecting rod a3, wherein the sliding groove a1 is located at the side end of the blanking hole 251, the material clamping plate a2 is clamped in the sliding groove a1, the clamping groove a3 is located at the other side end of the blanking hole 251, the connecting rod a3 is clamped in the clamping groove a3, the connecting rod a3 is connected with the pinions in the roller group 253 through steel wires, the connecting rod a3 is connected with the top of the material clamping plate a2, and the connecting rod a3 is favorable for driving the material clamping plate a2 to slide in the sliding groove a 1.

The clamping plate a2 comprises a rolling groove a21, clamping plates a22, rolling wheels a23 and return springs a24, the rolling groove a21 is arranged at the top end of the clamping plate a2, two clamping plates a22 are arranged and connected through a rotating shaft, the rolling wheels a23 are clamped in the rolling groove a21 and connected with the tail end of the clamping plate a22, the return springs a24 are arranged in the rolling groove a21 and movably matched with the rolling wheels a23, and when the clamping plate a2 is not opened, an included angle formed between the two clamping plates a22 is 90 degrees, so that the catalyst particles can be guided to the tail end of the clamping plate a2 to be recorded and dropped.

Based on the above embodiment, the specific working principle is as follows: when bubbles exist in the melted catalyst, the catalyst can be melted by arranging a blanking device 25 at the upper end of the heating chamber 22, the buoy 26 pulls the large roller in the roller group 253, so that the small roller in the roller group 253 can pull the connecting rod a3 to move towards the rear end, the material clamping plate a2 connected with the connecting rod a3 is opened, the catalyst which can be blocked can fall down, when the catalyst falls to a certain amount, the buoy 26 floats upwards, the material clamping plate a2 is closed again to stop the blanking, thereby dissolving the catalyst particles little by little, leading the bubbles arranged at the top end of the catalyst solution to break through the pressure and bubble upwards, can effectually get rid of the bubble of arranging in catalyst solution, lead to the catalyst granule through the card board a22 of installing in card flitch a2 upper end at last, can let the catalyst more quick drop, avoid the condition that can appear blockking up.

Example two: referring to fig. 6-8, the embodiment of the present invention is as follows:

the bubble removing device 23 comprises a material passing hole 231, an air outlet hole 232, vent holes 233 and a material guide block 234, wherein the material passing hole 231 is provided with more than ten holes and arranged around the bubble removing device 23, the air outlet hole 232 is provided with more than ten holes and arranged around the side end of the material passing hole 231 and communicated with the material passing hole 231, the vent holes 233 are arranged at the rear end of the air outlet hole 232 and communicated with the air outlet hole 232, the material guide block 234 is positioned at the top end of the bubble removing device 23, the inner side of the material guide block 234 is arc-shaped, the air outlet hole 232 is inclined by 80 degrees, and therefore the material guide block 234 can guide the catalyst in a viscous state to the material passing hole 231, and the catalyst can be prevented from flowing in the air outlet hole 232.

Air outlet 232 includes dam device b1, stings bubble board b2, gas pocket b3, stings bubble needle b4, dam device b1 sets up in the middle of the inside of air outlet 232 is positive, sting bubble board b2 inlays the front end of consolidating at air outlet 232, gas pocket b3 is equipped with more than ten, and installs perpendicularly in the middle of stinging bubble board b 2's inside is positive, sting bubble needle b4 sets up between two liang of gas pockets b3, sting bubble needle b4 is sharp-pointed form, is favorable to guiding the bubble of mixing in the catalyst solution for the bubble is through the past discharge of gas pocket b 3.

Dam device b1 includes mounting groove b11, bouncing ball b12, baffle b13, mounting groove b11 is equipped with two, and is located dam device b 1's last lower extreme respectively, bouncing ball b12 is equipped with more than ten, and two liang of installations in mounting groove b11, baffle b13 is equipped with two, and the block is in mounting groove b11 respectively to with bouncing ball b12 clearance fit, baffle b13 is sunken to the centre by both ends, is favorable to letting the catalyst concentrate on baffle b 13's positive centre, pushes away baffle b13 for the air can be discharged outward.

Based on the above embodiment, the specific working principle is as follows: the catalyst solution is guided into the material passing holes 231 by the material guide blocks 234 with the inner side being in an arc shape, then the material passing holes 231 inclined by 80 degrees are arranged around the side ends of the material passing holes 231, so that the viscous catalyst cannot flow in the air outlet holes 232, when the air bubbles mixed in the catalyst contact the air outlet holes 232, the air bubbles are guided by the foam pricking plates b2 to move to the air holes b3, the air bubbles flow to the upper ends of the air outlet holes 232, and then the elastic balls b12 are deformed by concentrating the pressure in the middle of the baffle b13, so that the baffle b13 is opened, the air bubbles can be discharged from the air vent 233, and the air bubbles are prevented from being mixed in the catalyst.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a prevent filter for processing of non-road machinery catalyst of jam, its structure includes support (1), main part (2), manometer (3), the welding has main part (2) in the middle of the centre of support (1), manometer (3) set up the top in main part (2), its characterized in that:

main part (2) are including discharge gate (21), heating chamber (22), remove bubble device (23), filter screen (24), unloader (25), buoy (26), discharge gate (21) set up the bottom in main part (2), heating chamber (22) are located the inside centre of main part (2), remove bubble device (23) and are located the bottom of heating chamber (22), remove bubble device (23) under arranging in filter screen (24), the top in heating chamber (22) is installed in unloader (25), buoy (26) block is in the inside in heating chamber (22), and is connected with unloader (25) through the steel wire.

2. The anti-clogging filter for use in non-road mechanical catalyst processing according to claim 1, wherein: the blanking device (25) comprises a blanking hole (251), a clamping device (252), roller groups (253) and a steel wire pipe (254), wherein the blanking hole (251) is long and is provided with more than ten, the blanking holes are transversely arranged in the blanking device (25), the clamping device (252) is installed at the side end of the blanking hole (251), the roller groups (253) are arranged at the rear end of the clamping device (252), and the steel wire pipe (254) is embedded at the bottom end of the blanking device (25).

3. The filter of claim 2, wherein the filter comprises: the material clamping device (252) comprises a sliding groove (a1), a material clamping plate (a2), a clamping groove (a3) and a connecting rod (a3), wherein the sliding groove (a1) is located at the side end of the blanking hole (251), the material clamping plate (a2) is clamped in the sliding groove (a1), the clamping groove (a3) is located at the other side end of the blanking hole (251), the connecting rod (a3) is clamped in the clamping groove (a3), and the connecting rod (a3) is connected with a pinion in the roller group (253) through a steel wire.

4. The filter of claim 3 for use in anti-clogging off-road mechanical catalyst processing, wherein: the clamping plate (a2) comprises a rolling groove (a21), a clamping plate (a22), rolling wheels (a23) and a return spring (a24), the rolling groove (a21) is formed in the top end of the clamping plate (a2), the clamping plate (a22) is provided with two clamping plates which are connected through a rotating shaft, the rolling wheels (a23) are clamped in the rolling groove (a21) and connected with the tail end of the clamping plate (a22), and the return spring (a24) is installed in the rolling groove (a21) and movably matched with the rolling wheels (a 23).

5. The anti-clogging filter for use in non-road mechanical catalyst processing according to claim 1, wherein: remove bubble device (23) including logical material hole (231), venthole (232), air vent (233), guide block (234), logical material hole (231) are equipped with more than ten, and arrange in bubble device (23) around, venthole (232) are equipped with more than ten, arrange in the side of logical material hole (231) around, and are linked together with logical material hole (231), air vent (233) set up the rear end at venthole (232), and are linked together with venthole (232), guide block (234) are located the top of removing bubble device (23).

6. The anti-clogging filter for use in non-road mechanical catalyst processing according to claim 5, wherein: venthole (232) are including dam device (b1), thorn bubble board (b2), gas pocket (b3), thorn bubble needle (b4), dam device (b1) set up in the inside centre of venthole (232), thorn bubble board (b2) inlays the front end at venthole (232), gas pocket (b3) are equipped with more than ten, and install perpendicularly in the inside centre of stinging bubble board (b2), thorn bubble needle (b4) set up between two liang of gas pockets (b 3).

7. The filter of claim 6, wherein the filter comprises: dam device (b1) include mounting groove (b11), bouncing ball (b12), baffle (b13), mounting groove (b11) is equipped with two, and is located the last lower extreme of dam device (b1) respectively, bouncing ball (b12) is equipped with more than ten, and two liang installs in mounting groove (b11), baffle (b13) are equipped with two, and the block is respectively in mounting groove (b11) to with bouncing ball (b12) clearance fit.