CN216360640U - Glass bead jar loading attachment for marking off car - Google Patents
Glass bead jar loading attachment for marking off car Download PDFInfo
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- CN216360640U CN216360640U CN202122949947.5U CN202122949947U CN216360640U CN 216360640 U CN216360640 U CN 216360640U CN 202122949947 U CN202122949947 U CN 202122949947U CN 216360640 U CN216360640 U CN 216360640U
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- negative pressure
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- glass bead
- feeding
- pipeline
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Abstract
The utility model provides a glass pearl jar loading attachment for marking off car, includes negative pressure system and material loading pipeline subassembly, and glass pearl jar upper end is equipped with the tube socket, and the tube socket upper end port is equipped with filter assembly, and filter assembly top is equipped with the negative pressure connecting pipe, and negative pressure system's suction opening is connected with the negative pressure connecting pipe, and the exit end of material loading pipeline subassembly is connected at the tube socket lateral part. The utility model has scientific principle and reasonable design, adopts a special negative pressure system to form negative pressure inside the glass bead tank through the negative pressure pipeline according to the characteristics of the reflective glass beads, automatically absorbs the reflective glass beads into the glass bead tank under the action of atmospheric pressure, reduces the labor intensity and the feeding time of workers, and improves the working efficiency.
Description
Technical Field
The utility model belongs to the technical field of road marking equipment, and particularly relates to a glass bead tank feeding device for a marking vehicle.
Background
In recent years, the economy of China is rapidly developed, the construction of expressways and roads at all levels is continuously developed, the market demand of road marking equipment is continuously increased, and the glass bead tank used for storing reflective glass beads in the marking equipment is one of important equipment. The existing glass bead tank loading operation can only be carried out through the mode of manual delivery, and at present, the glass bead tank automatic loading device special for the road marking vehicle is not provided. The construction amount of the prior road marking operation is large, the construction period is short, the large-scale mechanization degree of a construction site is high, and the automation degree is high, so that the large-scale marking glass bead broadcasting can be completed only by increasing the number of glass bead tanks, but the labor intensity is high by adopting an operation mode of manual feeding, the efficiency is low, and the construction progress is influenced.
SUMMERY OF THE UTILITY MODEL
The glass bead tank feeding device for the marking vehicle, which is disclosed by the utility model, aims to overcome the defects in the prior art, and can improve the glass bead feeding efficiency, reduce the labor intensity and reduce the manual investment.
In order to solve the technical problems, the utility model adopts the following technical scheme: the utility model provides a glass pearl jar loading attachment for marking off car, includes negative pressure system and material loading pipeline subassembly, and glass pearl jar upper end is equipped with the tube socket, and the tube socket upper end port is equipped with filter assembly, and filter assembly top is equipped with the negative pressure connecting pipe, and negative pressure system's suction opening is connected with the negative pressure connecting pipe, and the exit end of material loading pipeline subassembly is connected at the tube socket lateral part.
Two glass bead tanks are arranged side by side; the negative pressure system comprises a vortex fan, a negative pressure main pipeline, a three-way pipe, a first negative pressure branch pipeline and a second negative pressure branch pipeline, an air inlet of the vortex fan is connected with one port of the negative pressure main pipeline, the other port of the negative pressure main pipeline is connected with one interface of the three-way pipe, the other two interfaces of the three-way pipe are respectively connected with a first manual ball valve and a second manual ball valve, the first manual ball valve is connected with a negative pressure connecting pipe at the top of one glass bead tank through the first negative pressure branch pipeline, and the second manual ball valve is connected with a negative pressure connecting pipe at the top of the other glass bead tank through the second negative pressure branch pipeline.
The filter subassembly includes the solid fixed cylinder, apron and air filter, gu fixed cylinder lower extreme coaxial line is equipped with the ring flange, the tube socket excircle is through a hinge and a plurality of swing bolt subassembly and ring flange fixed connection, be equipped with the sealing washer between ring flange and the tube socket upper end, apron fixed connection is port on the solid fixed cylinder, air filter is whole to be cylindrically, the air filter coaxial line sets up inside the solid fixed cylinder, air filter is penetrating from top to bottom, air filter's cylinder shell top and bottom are all fixed and are equipped with spacing crown plate and lower spacing crown plate, it passes through screw fixed connection at the apron lower surface to go up the spacing crown plate.
The feeding pipeline component comprises a feeding pipe joint, an elbow pipe and a vertical pipe, one end of the feeding pipe joint is connected with the side portion of the pipe seat, the other end of the feeding pipe joint is connected with the vertical pipe through the elbow pipe, the vertical pipe is parallel to the central line of the glass bead tank, the vertical pipe is vertically arranged along the outer circle of the glass bead tank, a feeding valve is connected to a lower port of the vertical pipe, and a quick-plugging joint is connected to a lower port of the feeding valve.
Adopt above-mentioned technical scheme, glass pearl jar upper flank portion and downside part are equipped with damping formula charge level indicator and lower damping formula charge level indicator respectively, and upper damping formula charge level indicator and lower damping formula charge level indicator are connected with the alarm respectively. When the lower damping type material level meter monitors the material level of glass beads in the glass bead tank, the alarm sends an alarm signal needing to be fed, a worker stretches the quick connector into a charging barrel containing reflective glass beads through the feeding pipe, the feeding valve is opened, the first manual ball valve and/or the second manual ball valve connected with the glass bead tank needing to be fed are/is opened, the vortex fan is started to vacuumize the glass bead tank, negative pressure is generated in the glass bead tank, the glass beads enter the glass bead tank through the feeding pipe and the feeding pipeline component, when the material level rises to the monitoring position of the upper damping type material level meter, the alarm sends an alarm signal that the material is full, the worker closes the vortex fan, the first manual ball valve and/or the second manual ball valve are/is closed, and the glass bead tank finishes automatic feeding operation.
The two glass bead tanks can store glass beads with different diameters according to different construction requirements, and when the glass beads are loaded, the first manual ball valve or the second manual ball valve can be opened and the second manual ball valve or the first manual ball valve can be closed to operate. The negative pressure suction that can realize carrying out the material loading to two glass bead jars through one set of negative pressure system like this.
The ring flange of filter subassembly passes through swing bolt unit connection, makes things convenient for the mounting box to dismantle, and air filter's setting avoids reflecting light glass pearl to get into negative pressure system and influence the negative pressure through the negative pressure connecting pipe and continuously goes on. Air filter passes through the screw fixation on the apron, and whole simple to operate, inside filter core structure install last spacing crown plate and down between the spacing crown plate, have better stability and convenient to detach and installation.
In conclusion, the utility model has scientific principle and reasonable design, adopts a special negative pressure system to form negative pressure inside the glass bead tank through the negative pressure pipeline according to the characteristics of the reflective glass beads, automatically absorbs the reflective glass beads into the glass bead tank under the action of atmospheric pressure, reduces the labor intensity and the feeding time of workers, and improves the working efficiency.
Drawings
FIG. 1 is a schematic view of the overall structure of the present invention;
fig. 2 is a schematic view of the internal structure of the filter assembly of the present invention.
Detailed Description
As shown in fig. 1 and 2, the glass bead tank feeding device for a scribing vehicle of the present invention comprises a negative pressure system and a feeding pipeline assembly, wherein a pipe seat 2 is arranged at the upper end of a glass bead tank 1, a filter assembly is arranged at the upper port of the pipe seat 2, a negative pressure connecting pipe 3 is arranged at the top of the filter assembly, a suction port of the negative pressure system is connected with the negative pressure connecting pipe 3, and an outlet end of the feeding pipeline assembly is connected to the side portion of the pipe seat 2.
Two glass bead tanks 1 are arranged side by side; the negative pressure system includes vortex fan 4, negative pressure main line 5, three-way pipe 6, first negative pressure by-pass line 7 and second negative pressure by-pass line 8, vortex fan 4's air inlet and 5 ports of negative pressure main line are connected, another port of negative pressure main line 5 and an interface connection of three-way pipe 6, another two interfaces of three-way pipe 6 are connected with first manual ball valve 9 and second manual ball valve 10 respectively, first manual ball valve 9 is connected with the negative pressure connecting pipe 3 at 1 top of a glass pearl jar through first negative pressure by-pass line 7, second manual ball valve 10 is connected with the negative pressure connecting pipe 3 at 1 top of another glass pearl jar through second negative pressure by-pass line 8.
The filter assembly comprises a fixed cylinder 11, a cover plate 12 and an air filter element 13, the lower end of the fixed cylinder 11 is coaxially provided with a flange plate 14, the excircle of a tube seat 2 is fixedly connected with the flange plate 14 through a hinge 23 and a plurality of movable joint bolt assemblies 15, a sealing ring is arranged between the upper end of the flange plate 14 and the upper end of the tube seat 2, the cover plate 12 is fixedly connected with the upper end of the fixed cylinder 11, the air filter element 13 is integrally cylindrical, the coaxial line of the air filter element 13 is arranged inside the fixed cylinder 11, the air filter element 13 is vertically through, the top and the bottom of a cylindrical shell of the air filter element 13 are both fixedly provided with an upper limiting ring plate 16 and a lower limiting ring plate 17, and the upper limiting ring plate 16 is fixedly connected with the lower surface of the cover plate 12 through screws.
The feeding pipeline component comprises a feeding pipe joint 18, an elbow pipe 19 and a vertical pipe 20, one end of the feeding pipe joint 18 is connected with the side portion of the pipe seat 2, the other end of the feeding pipe joint 18 is connected with the vertical pipe 20 through the elbow pipe 19, the vertical pipe 20 is parallel to the central line of the glass bead tank 1, the vertical pipe 20 is vertically arranged along the excircle of the glass bead tank 1, a feeding valve 21 is connected to a lower port of the vertical pipe 20, and a quick-plugging joint 22 is connected to a lower port of the feeding valve 21.
An upper damping type material level meter 24 and a lower damping type material level meter 25 are respectively arranged on the upper side part and the lower side part of the glass bead tank 1, and the upper damping type material level meter 24 and the lower damping type material level meter 25 are respectively connected with an alarm. When the lower damping type material level meter 25 monitors the material level of glass beads in the glass bead tank 1, the alarm sends an alarm signal needing to be fed, a worker stretches the quick connector 22 into a charging barrel containing the reflective glass beads through the feeding pipe, the feeding valve 21 is opened, the first manual ball valve 9 and/or the second manual ball valve 10 connected with the glass bead tank 1 needing to be fed are opened, the vortex fan 4 is started to vacuumize the glass bead tank 1, the glass bead tank 1 generates negative pressure, the glass beads enter the glass bead tank 1 through the feeding pipe and the feeding pipeline component, when the material level rises to the monitoring position of the upper damping type material level meter 24, the alarm sends an alarm signal that the material is full, the worker closes the vortex fan 4, the first manual ball valve 9 and/or the second manual ball valve 10 are closed, and the glass bead tank 1 completes automatic feeding operation.
The two glass bead tanks 1 configured in the utility model can store glass beads with different diameters according to different construction requirements, and can be operated by opening the first manual ball valve 9 or the second manual ball valve 10 and closing the second manual ball valve 10 or the first manual ball valve 9 during loading. Can realize carrying out the negative pressure suction of material loading to two glass bead jars 1 like this through one set of negative pressure system.
The flange plate 14 of the filter assembly is connected through the movable joint bolt assembly, the mounting box is convenient to disassemble, and the arrangement of the air filter element 13 avoids the phenomenon that the negative pressure is influenced by the fact that the reflecting glass beads enter a negative pressure system through the negative pressure connecting pipe 3 and continuously goes on. The air filter element 13 is fixed on the cover plate 12 through screws, the whole installation is convenient, and the internal filter element structure is installed between the upper limiting ring plate 16 and the lower limiting ring plate 17, so that the air filter element has better stability and is convenient to disassemble and install.
The scroll fan 4, the upper damping type level gauge 24, the lower damping type level gauge 25, the pipeline and the valve in the utility model are all in the prior art in the field, so the specific structure and the county are not described in detail.
Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the utility model.
Claims (4)
1. The utility model provides a glass pearl jar loading attachment for marking off car which characterized in that: the glass bead tank is characterized by comprising a negative pressure system and a feeding pipeline assembly, wherein a pipe seat is arranged at the upper end of the glass bead tank, a filter assembly is arranged at the upper end of the pipe seat, a negative pressure connecting pipe is arranged at the top of the filter assembly, a suction opening of the negative pressure system is connected with the negative pressure connecting pipe, and the outlet end of the feeding pipeline assembly is connected to the side part of the pipe seat.
2. The apparatus of claim 1, wherein: two glass bead tanks are arranged side by side; the negative pressure system comprises a vortex fan, a negative pressure main pipeline, a three-way pipe, a first negative pressure branch pipeline and a second negative pressure branch pipeline, an air inlet of the vortex fan is connected with one port of the negative pressure main pipeline, the other port of the negative pressure main pipeline is connected with one interface of the three-way pipe, the other two interfaces of the three-way pipe are respectively connected with a first manual ball valve and a second manual ball valve, the first manual ball valve is connected with a negative pressure connecting pipe at the top of one glass bead tank through the first negative pressure branch pipeline, and the second manual ball valve is connected with a negative pressure connecting pipe at the top of the other glass bead tank through the second negative pressure branch pipeline.
3. The glass bead jar loading apparatus for a scribing vehicle according to claim 1 or 2, wherein: the filter subassembly includes the solid fixed cylinder, apron and air filter, gu fixed cylinder lower extreme coaxial line is equipped with the ring flange, the tube socket excircle is through a hinge and a plurality of swing bolt subassembly and ring flange fixed connection, be equipped with the sealing washer between ring flange and the tube socket upper end, apron fixed connection is port on the solid fixed cylinder, air filter is whole to be cylindrically, the air filter coaxial line sets up inside the solid fixed cylinder, air filter is penetrating from top to bottom, air filter's cylinder shell top and bottom are all fixed and are equipped with spacing crown plate and lower spacing crown plate, it passes through screw fixed connection at the apron lower surface to go up the spacing crown plate.
4. The glass bead jar loading apparatus for a scribing vehicle according to claim 1 or 2, wherein: the feeding pipeline component comprises a feeding pipe joint, an elbow pipe and a vertical pipe, one end of the feeding pipe joint is connected with the side portion of the pipe seat, the other end of the feeding pipe joint is connected with the vertical pipe through the elbow pipe, the vertical pipe is parallel to the central line of the glass bead tank, the vertical pipe is vertically arranged along the outer circle of the glass bead tank, a feeding valve is connected to a lower port of the vertical pipe, and a quick-plugging joint is connected to a lower port of the feeding valve.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202122949947.5U CN216360640U (en) | 2021-11-29 | 2021-11-29 | Glass bead jar loading attachment for marking off car |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202122949947.5U CN216360640U (en) | 2021-11-29 | 2021-11-29 | Glass bead jar loading attachment for marking off car |
Publications (1)
Publication Number | Publication Date |
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CN216360640U true CN216360640U (en) | 2022-04-22 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202122949947.5U Active CN216360640U (en) | 2021-11-29 | 2021-11-29 | Glass bead jar loading attachment for marking off car |
Country Status (1)
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CN (1) | CN216360640U (en) |
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2021
- 2021-11-29 CN CN202122949947.5U patent/CN216360640U/en active Active
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