CN109395498B - Quick filling device of particulate matter - Google Patents

Abstract

The invention discloses a rapid particulate matter filling device, which comprises a workbench, a funnel and a honeycomb screen, wherein a plurality of air extraction seats of which the tops are provided with the honeycomb screen are arranged on the workbench, a sliding material leakage device is arranged above the air extraction seats corresponding to the honeycomb screen, and the funnel is arranged at the top of the sliding material leakage device in a penetrating way; slide rails are arranged on the left side and the right side of the air suction seat on the workbench, and the bottoms of the left side and the right side of the sliding material leakage device are slidably arranged on the slide rails through slide blocks; the workbench is provided with telescopic roller limiting devices on the left and right sides of the sliding material leakage device, and a limiting surface is arranged on one end of the sliding material leakage device, which is close to the telescopic roller limiting devices, corresponding to the rollers of the telescopic roller limiting devices; the invention has the advantages of high filling efficiency, simple operation, easy control of the filling amount of the particles, effective prevention of scattering of the particles, clean working environment, convenient recovery of the particles, reduction of the loss of the particles and stable filling process.

Description

Quick filling device of particulate matter

Technical Field

The invention belongs to the technical field of purification, and particularly relates to a rapid particulate matter filling device.

Background

In the industrial fields related to purification and filtration, especially in the technical fields related to fluid purification, air purification and the like, it is often required to fill particles for purification or filtration in a specific purification or filtration screen, such as activated carbon particles, sand particles, foam particles and the like, because the amount of particles to be filled in the specific purification or filtration screen is limited, the filling degree of the filler needs to be controlled more strictly when the screen is filled, and the filling of the filler cannot be too much or too little, and the flowing of the fluid is affected by the too much filling of the particles, and the effect of purification or filtration is affected by the too little filling of the particles. Therefore, it is important to control the degree of filling of particulate matter. Because most of the traditional mesh plates are honeycomb, holes for filling particles are more, and the filling degree of the particles is difficult to control by using mechanical equipment, the particle filling work is generally realized by manual filling. However, the manual filling of the particles has the problems of extremely low working efficiency, high working strength and low control precision of the filling degree of the particles, so that the invention discloses a rapid particle filling device aiming at the defects of the traditional mode of filling the particles by manual filling.

Disclosure of Invention

The invention aims to provide a rapid particulate matter filling device, which realizes the functions of rapidly filling particulate matters in a screen plate and effectively controlling the filling degree of the particulate matters and has the effects of high filling efficiency and high control precision of the filling degree of the particulate matters.

The invention is realized by the following technical scheme:

the utility model provides a particulate matter quick filling device, includes workstation, funnel and honeycomb otter board, be provided with the seat of bleeding that a plurality of tops installed the honeycomb otter board on the workstation, the top of seat of bleeding corresponds the honeycomb otter board and sets up the slip and leaks the material device, the top of slip leaks the material device and runs through and install the funnel; slide rails are arranged on the left side and the right side of the workbench, which are positioned on the air suction seat, and bottoms of the left side and the right side of the sliding material leakage device are slidably arranged on the slide rails through slide blocks; the telescopic roller limiting devices are further arranged on the left side and the right side of the sliding material leakage device on the workbench, and a limiting surface is arranged on one end, close to the telescopic roller limiting devices, of the sliding material leakage device, corresponding to the roller of the telescopic roller limiting devices.

The working principle and the using method are as follows:

the table top of the workbench is provided with a plurality of air extraction seats, the top of each air extraction seat is provided with a mounting part corresponding to the honeycomb screen plate with different shapes, the bottom of each honeycomb screen plate is covered with a gauze, the top of each honeycomb screen plate is not covered with the gauze yet, the honeycomb screen plate is in an opening state, and the honeycomb screen plate with the upper opening is arranged in the mounting part of each air extraction seat, so that the mounting and positioning of the honeycomb screen plate are realized. The left side, the right side that lie in the seat of bleeding on the mesa of workstation still parallel alignment are provided with the slide rail, and the top of seat of bleeding corresponds the honeycomb otter board and is provided with the slip and leaks material device, and the bottom of the left and right both sides of slip and leak material device passes through slider slidable mounting on the slide rail, through the cooperation of slider and slide rail, realizes the slip and leaks material device and slided function between workstation and honeycomb otter board. The top of the sliding material leakage device is penetrated and provided with a funnel, and particles for filling the honeycomb screen are stored in the funnel in advance. The filling time of the honeycomb screen plate is required to be carried out, the sliding material leakage device is slid to the upper part of the air extraction seat, the outlet of the funnel on the sliding material leakage device is aligned with the honeycomb screen plate, the sliding material leakage device measures the particles leaked from the funnel, if the quantity of the particles leaked from the funnel each time is controlled, a certain quantity of particles fall into the honeycomb screen plate to fill the honeycomb screen plate, when the filling operation is carried out, the telescopic roller limiting device is in an extending state, the limiting surface of the roller of the telescopic roller limiting device is propped against the limiting surface of the sliding material leakage device at the moment, and the relative position movement between the sliding material leakage device and the honeycomb screen plate in the material leakage filling process is prevented, so that the filling particles are prevented from being scattered. After the particulate matter is filled, the telescopic roller limiting device is pressed down, the rim of the roller of the telescopic roller limiting device is not propped against the limiting surface of the sliding material leakage device any more, at the moment, the sliding material leakage device can slide freely, the sliding material leakage device is moved away, the filled honeycomb screen can be taken out, then the unfilled honeycomb screen is replaced on the air suction seat, and then the steps are repeated to carry out rapid filling of the next honeycomb screen.

In order to better realize the invention, the sliding material leakage device further comprises a funnel installation component, a sliding plate and an extraction plate, wherein the funnel installation component is arranged above the extraction seat corresponding to the honeycomb screen plate, and a funnel is arranged on the funnel installation component in a penetrating way; the bottoms of the left side and the right side of the funnel installation assembly are slidably installed on the sliding rail through the sliding blocks, and a drawing plate is installed between the left side and the right side of the bottom of the funnel installation assembly; the funnel installation component and take out between the board slidable mounting have the sliding plate, correspond the honeycomb otter board on the sliding plate and be provided with the weeping mouth, the bottom of weeping mouth is laminated with the top terminal surface of taking out the board.

The sliding material leakage device mainly comprises a funnel installation component, a sliding plate and a pumping plate, wherein the funnel installation component is installed above the pumping seat, the bottoms of the left side and the right side of the funnel installation component are slidably installed on the sliding rail through sliding blocks, and the funnel is installed on the funnel installation component in a penetrating mode at a position corresponding to the honeycomb screen plate. Simultaneously, still install between the bottom of funnel installation component left and right both sides and take out the board, take out the board and can follow the funnel installation component and carry out the co-sliding. The funnel installation component and take out and still slidable mounting have the sliding plate between the board, correspond the honeycomb otter board on the sliding plate and be provided with the weeping mouth, the thickness of sliding plate and the size of weeping mouth are according to the required particulate matter filling amount of honeycomb otter board and calculate in advance and design, make the volume that the weeping mouth vacated be the particulate matter filling amount volume that the honeycomb otter board needs. When the filling of particulate matters is carried out, the funnel installation assembly and the sliding plate are slid to the upper part of the honeycomb screen plate, so that the bottom opening of the funnel on the funnel installation assembly, the material leakage opening of the sliding plate and the honeycomb screen plate are aligned, then the funnel is used for material leakage, the particulate matters in the funnel firstly fall into the material leakage opening on the sliding plate, and the top end face of the drawing plate is attached to the bottom of the material leakage opening, namely the drawing plate shields the bottom of the material leakage opening at the moment, the particulate matters are stored in the material leakage opening of the sliding plate at the moment, and the volume of the particulate matters in the material leakage opening is the particulate matter filling quantity required by the honeycomb screen plate at the moment after the material leakage opening of the sliding plate is filled with the particulate matters. At this time, after the superfluous particulate matters positioned outside the material leakage opening at the top of the sliding plate are removed, the funnel installation assembly is then slid and removed, the material leakage opening is not blocked by the drawing plate, and along with the removal of the drawing plate, the quantified particulate matters in the material leakage opening fall into the honeycomb screen plate, so that the honeycomb screen plate is rapidly and quantitatively filled. After the honeycomb screen is filled, the sliding plate is slid and moved away, so that the filled honeycomb screen can be conveniently taken out from the air suction seat, then the unfilled honeycomb screen is arranged on the air suction seat, and the steps are repeated, so that the quantitative filling of the honeycomb screen can be rapidly and continuously carried out.

In order to better realize the invention, furthermore, one end of the funnel installation component, which is close to the telescopic roller limiting device, is provided with an inclined plane for pressing down the rim of the roller of the telescopic roller limiting device; and a limiting surface is arranged on one end of the sliding plate, which is close to the telescopic roller limiting device, corresponding to the rim of the roller of the telescopic roller limiting device.

The workbench on the left side and the right side of the funnel installation assembly is provided with telescopic idler wheel limiting devices, and the telescopic idler wheel limiting devices are located at one end of the sliding plate far away from the air extraction seat. The gyro wheel of flexible gyro wheel stop device can carry out vertical flexible from top to bottom, and the one end that the sliding plate is close to flexible gyro wheel stop device corresponds the rim of gyro wheel and is provided with vertical spacing face, and the one end that the funnel installation component is close to flexible gyro wheel stop device corresponds the rim of gyro wheel and is provided with the inclined plane. When filling particles, the telescopic roller limiting device is in an extending state, the rim of the roller props against the limiting surface of the sliding plate, the sliding plate is limited, the material leakage opening of the sliding plate on the sliding plate is limited to be aligned with the honeycomb screen on the air suction seat, the filling of the particles is facilitated, and the sliding plate is prevented from sliding to cause the scattering of the particles. After the honeycomb screen is filled, the sliding plate still is in a limiting state and can not slide, the funnel installation assembly is slid, when the inclined plane of one end of the funnel installation assembly, which is close to the telescopic roller limiting device, is contacted with the rim of the roller, the roller descends under the pressing of the inclined plane along with the continuous sliding of the funnel installation assembly until the roller descends to a certain height, the rim of the roller does not prop against the limiting surface of the sliding plate, namely, the sliding plate can slide at the moment, the sliding plate and the funnel installation assembly slide together to a position which does not shade the honeycomb screen, the filled honeycomb screen can be taken out, the next unfilled honeycomb screen is loaded, and then the sliding plate and the funnel installation assembly slide again to a state aligned with the honeycomb screen for next filling.

In order to better realize the invention, further, the bottom end surface of the funnel is attached to the top of the sliding plate, and a scraping plate is arranged between the bottom of the funnel and the sliding plate.

In order to prevent when the leakage amount is great or the leakage speed is fast, unnecessary particulate matter spills from the gap between the bottom of funnel and the sliding plate to spill from the sliding plate, cause the waste of particulate matter, consequently set up the bottom terminal surface of funnel into the state of laminating with the top of sliding plate, effectively prevent that the particulate matter from spilling. Meanwhile, after the material leakage is completed, when the funnel needs to be moved away, the bottom end face of the funnel and the scraping plate can scrape off redundant particles of the top of the sliding plate outside the material leakage opening, so that quantitative filling of the material leakage opening on the sliding plate is effectively ensured, and the filling quantity of the particles of the honeycomb screen plate is effectively controlled.

In order to better realize the invention, the telescopic roller limiting device further comprises a telescopic limiting seat, a telescopic limiting rod, rollers and springs, wherein the telescopic limiting seat is arranged on two sides of the sliding direction of the sliding plate, the vertical telescopic limiting rod is arranged in the telescopic limiting seat in a sliding manner, the bottom of the telescopic limiting rod is connected with the telescopic limiting seat through the springs, the rollers are arranged at the tops of the telescopic limiting rods, and the rims of the rollers are in contact limiting with the inclined plane of the funnel mounting assembly and the limiting surface of the sliding plate.

In the process of filling particles, the sliding plate and the funnel installation assembly need to slide, but when the particles are filled, the alignment and relative stillness among a material leakage opening of the sliding plate, a funnel on the funnel installation assembly and the honeycomb screen plate need to be ensured, so that the filling quantity of the particles can be effectively ensured, and the particles are prevented from being scattered outside the honeycomb screen plate. In order to ensure the relative rest and alignment of the material leakage opening, the funnel and the honeycomb screen plate during particle filling, telescopic roller limiting devices are arranged on two sides of the sliding direction of the sliding plate, when particle filling is carried out, springs in the telescopic roller limiting devices are in a normal state, at the moment, the telescopic limiting rods are in an extending state, the rim of the roller at the top of the telescopic limiting rods pushes the limiting surface of the sliding plate, which is close to one end of the roller, against the sliding plate, limiting the sliding plate, and sliding of the sliding plate is avoided; similarly, the rim of the roller pushes against the inclined plane of one end of the funnel installation assembly, which is close to the roller, so that the funnel installation assembly is prevented from sliding, the relative rest and alignment of the material leakage opening, the funnel and the honeycomb screen plate are further ensured, and the filling effect of particles is ensured. After the particulate matter is filled, the external force is applied to push the funnel installation assembly, the inclined surface of the funnel installation assembly downwards presses the roller to stretch, and then the telescopic limiting rod is pressed, the spring is compressed, the telescopic limiting rod descends to drive the roller to descend, and when the rim of the roller does not prop against the limiting surface of the sliding plate and the inclined surface of the funnel installation assembly any more, the sliding plate and the funnel installation assembly are not limited any more, and at the moment, the sliding plate and the funnel installation assembly can slide freely.

In order to better realize the invention, further, the side surface of the telescopic limit seat is provided with a vertical sliding groove, the side surface of the telescopic limit seat is provided with a sliding column corresponding to the sliding groove, and the sliding column vertically slides along the sliding groove.

The telescopic limiting rod can adopt a square rod or a round rod, when the telescopic limiting rod in the form of the round rod is used, the telescopic limiting rod can vertically slide in the telescopic limiting seat and can possibly rotate circumferentially, when the telescopic limiting rod circumferentially rotates, the roller at the top end of the telescopic limiting rod can be driven to rotate, the rim of the roller can not limit the sliding plate or the funnel installation component any more, the circumferential rotation of the telescopic limiting rod is avoided, a vertical sliding groove is formed in the side face of the telescopic limiting seat, a sliding column is arranged on the side face of the telescopic limiting rod corresponding to the sliding groove, the sliding column can vertically slide in the sliding groove, namely, the telescopic limiting rod is not blocked when vertically slides in the telescopic limiting seat, but the sliding column is limited by the vertical side face of the sliding groove when circumferentially rotating, and the circumferential rotation of the telescopic limiting rod is further prevented. When the square rod type telescopic limiting rod is used, the square outline of the telescopic limiting rod and the square inner cavity of the telescopic limiting seat have the function of preventing circumferential rotation, and the sliding groove connecting sliding column can be omitted.

In order to better realize the invention, further, a residue collecting box is arranged at the bottom opening of the air extraction seat, an air extraction hole is formed in the side surface of the air extraction seat, an air extraction connecting pipeline is arranged at the air extraction hole, and air extraction equipment is arranged on the air extraction connecting pipeline.

Because the particulate matter that fills into honeycomb otter board is light in most weight, under the effect of wind-force or other external force, the particulate matter very easily flies out from honeycomb otter board, in order to avoid this condition, consequently set up the gas vent in the side of gas extraction seat gas extraction connecting pipe is installed to gas extraction hole department install the equipment of bleeding on the connecting pipe that bleeds, carry out the operation of bleeding through the equipment of bleeding, produce the air current and hold the particulate matter in the honeycomb otter board, prevent that the particulate matter from flying out, the bottom opening part of gas extraction seat is provided with the residue collection box simultaneously, can collect the particulate matter that falls down from the gas extraction seat, avoid polluting operational environment, reduce the loss of particulate matter simultaneously.

In order to better realize the invention, further, one end of the sliding material leakage device, which is close to the air suction seat, is provided with a handle.

The operator can more conveniently and laborsaving remove the slip leakage device through pulling or pushing the handle.

In order to better realize the invention, the two ends of the sliding rail are further provided with limit baffles.

In order to avoid the sliding of the leakage sliding device, limiting baffles are arranged at two ends of the sliding rail to limit the leakage sliding device.

In order to better realize the invention, further, the rear end of the workbench is provided with a workbench bracket which is vertically upwards, and the workbench bracket is provided with a lighting device.

One side of the workbench is also provided with a workbench bracket, and a lighting device or other auxiliary devices for lighting are arranged on the workbench bracket.

Compared with the prior art, the invention has the following advantages:

(1) According to the invention, the workbench is provided with the plurality of air extraction seats of which the tops are provided with the honeycomb screen, the upper part of the air extraction seat is provided with the sliding material leakage device, the bottoms of the left side and the right side of the sliding material leakage device are slidably arranged on the sliding rails positioned on the left side and the right side of the air extraction seat on the workbench through the sliding blocks, the tops of the sliding material leakage devices are provided with the hopper in a penetrating way, the sliding material leakage device is moved between the honeycomb screen and the workbench, and the rapid quantitative filling of the honeycomb screen is realized through the sliding material leakage of the sliding material leakage device; the invention has the advantages of high filling efficiency, simple operation and easy control of the filling amount of the particles.

(2) According to the invention, the funnel installation assembly is arranged above the air extraction seat, the bottoms of the left side and the right side of the funnel installation assembly are slidably installed on the sliding rail through the sliding blocks, the extraction plate is installed between the bottoms of the left side and the right side of the funnel installation assembly, the sliding plate is slidably installed between the funnel installation assembly and the extraction plate, the sliding plate is provided with a quantitative material leakage hole corresponding to the honeycomb screen plate, and the top end face of the extraction plate is attached to the bottom of the material leakage hole; the funnel mounting assembly and the sliding plate are slid to be aligned with the honeycomb screen plate, so that particles are pre-filled in a quantitative material leakage hole in the sliding plate, and then the funnel mounting assembly is removed, so that the particles in the material leakage hole of the sliding plate fall into the honeycomb screen plate for rapid quantitative filling; the invention has the advantages of simple operation, suitability for installation of honeycomb net plates of various specifications, suitability for filling of particles with different filling amounts and easy control of filling amount.

(3) According to the invention, the residue collecting box is arranged at the bottom of the air extraction seat, the air extraction connecting pipeline with the air extraction equipment is connected to the side surface of the air extraction seat, and air flow is generated by air extraction of the air extraction equipment, so that particles are tightly adsorbed on the gauze of the honeycomb screen, and the particles are prevented from flying out of the honeycomb screen; the invention has the beneficial effects of effectively preventing particles from scattering, ensuring clean working environment, facilitating the recovery of the particles and reducing the loss of the particles.

(4) According to the invention, the telescopic roller limiting devices are arranged on the workbench at the left side and the right side of the sliding plate, the sliding plate and the funnel mounting assembly are limited through the telescopic roller limiting devices, so that the sliding plate and the funnel mounting assembly are prevented from sliding and being out of position, the sliding plate and the honeycomb screen plate are prevented from moving relatively when particles are filled, and the filling effect of the particles is ensured; the invention has the beneficial effects of stable filling process and convenient assembly and disassembly of the honeycomb screen plate.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a left side cross-sectional view of the present invention;

FIG. 3 is a schematic view of a sliding leak device;

FIG. 4 is a schematic illustration of the spacing of the funnel mounting assembly;

FIG. 5 is a schematic view of the funnel and slide plate installation;

FIG. 6 is a schematic view of a telescopic roller limit device;

FIG. 7 is a schematic view of the telescopic limit seat and the telescopic limit rod;

FIG. 8 is a schematic diagram of the installation of the suction base.

Wherein: 1-a workbench; 2-an air extraction seat; 3-a sliding material leakage device; 4-funnel; 5-a telescopic roller limiting device; 31-a funnel mounting assembly; 32-a sliding plate; 33-drawing plate; 51-a telescopic limit seat; 52-a telescopic limit rod; 53-a roller; 54-springs; 01-a residue collection box; 02-an air extraction connecting pipeline; 03-a chute; 04-slide column.

Detailed Description

Example 1:

the particulate matter rapid filling device comprises a workbench 1, a funnel 4 and a honeycomb screen, wherein a plurality of air extraction seats 2 with the honeycomb screen installed at the top are arranged on the workbench 1, a sliding material leakage device 3 is arranged above the air extraction seats 2 corresponding to the honeycomb screen, and the funnel 4 is installed at the top of the sliding material leakage device 3 in a penetrating manner; slide rails are arranged on the left side and the right side of the workbench 1, which are positioned on the air exhaust seat 2, and the bottoms of the left side and the right side of the sliding material leakage device 3 are slidably arranged on the slide rails through slide blocks; the workbench 1 is provided with telescopic roller limiting devices 5 positioned on the left side and the right side of the sliding material leakage device 3, and one end, close to the telescopic roller limiting devices 5, of the sliding material leakage device 3 is provided with limiting surfaces corresponding to the rollers of the telescopic roller limiting devices 5.

A plurality of air extraction seats 2 are arranged on the table top of the workbench 1, the air extraction seats 2 are hollow cylindrical or cylindrical structures with two open ends, the tops of the air extraction seats 2 are used for installing honeycomb mesh plates, the tops of the air extraction seats 2 can be correspondingly arranged according to the shapes of the honeycomb mesh plates of different specifications or models so as to adapt to the installation of the honeycomb mesh plates of different shapes, and the installation time of the different honeycomb mesh plates is carried out only by replacing the corresponding air extraction seats 2.

The top at the top of the air extraction seat 2 is provided with a sliding material leakage device 3, the left side and the right side of the sliding material leakage device 3 are respectively and slidably arranged on sliding rails positioned at the left side and the right side of the air extraction seat 2 on the table top of the workbench 1 through sliding blocks, and the sliding material leakage device 3 can freely and flexibly slide on the workbench through the matching of the sliding rails and the sliding blocks. By moving the position of the sliding material leakage device 3, the sliding material leakage device 3 can be aligned with the honeycomb screen plate, and the material leakage filling of the honeycomb screen plate can be performed; or make the slip leak material subassembly 3 remove to the position that does not shelter from the honeycomb otter board, be convenient for take out or installation of honeycomb otter board, the top of slip leak material device 3 runs through and installs funnel 4, and the leak material mouth department of funnel 4 can set up quantitative metering device, carries out quantitative blanking to satisfy different particulate matter filling quantity demands of different honeycomb otter boards. Meanwhile, telescopic roller limiting devices 5 are arranged on the left side and the right side of the air extraction seat 2 on the workbench 1, limiting parts of the telescopic roller limiting devices 5 are rollers, limiting surfaces are arranged on the end faces, close to the telescopic roller limiting devices 5, of the sliding material leakage devices 3, corresponding to the rims of the rollers, and when particles are filled, the rollers are in an extending state, the rims of the rollers prop against the limiting surfaces of the sliding material leakage devices 3, at the moment, the sliding material leakage devices 3 cannot slide freely, and the particles are prevented from being spilled out when the particles are filled; after filling, the telescopic roller limiting device 5 is pressed down, so that the rim of the roller does not prop against the limiting surface of the sliding material leakage device 3 any more, and the sliding material leakage device 3 can slide freely at the moment, thereby being convenient for taking out the filled honeycomb screen.

Example 2:

the embodiment is further optimized based on embodiment 1, as shown in fig. 3, the sliding material leakage device 3 includes a funnel installation component 31, a sliding plate 32 and a suction plate 33, the funnel installation component 31 is installed above the suction seat 2 corresponding to the honeycomb screen, and the funnel installation component 31 is penetratingly installed with a funnel 4; the bottoms of the left side and the right side of the funnel mounting assembly 31 are slidably mounted on the slide rail through a slide block, and a drawing plate 33 is mounted between the left side and the right side of the bottom of the funnel mounting assembly 31; the funnel mounting assembly 31 and the drawing plate 33 are slidably provided with a sliding plate 32, a material leakage opening is formed in the sliding plate 32 corresponding to the honeycomb screen, and the bottom of the material leakage opening is attached to the top end face of the drawing plate 33.

The top of funnel installation component 31 is provided with the mounting hole that is used for installing funnel 4, and the slider is installed to the bottom of the left and right both sides of funnel installation component 31 and passes through slider slidable mounting on the slide rail, and funnel installation component 31 can slide on the workstation along the slide rail back and forth promptly. Meanwhile, a drawing plate 33 is further installed between the bottoms of the left side and the right side of the funnel installation assembly 31, a sliding plate 32 is further installed between the funnel installation assembly 31 and the drawing plate 33 in a sliding mode, sliding blocks are installed at the bottoms of the left side and the right side of the sliding plate 32 and are installed on the sliding rails in a sliding mode through the sliding blocks, namely the drawing plate 33 slides together with the funnel installation assembly 31, and the sliding plate 32, the funnel installation assembly 31 and the drawing plate 33 can slide independently. The sliding plate 32 is provided with a material leakage opening corresponding to the honeycomb screen, the size of the material leakage opening and the thickness of the sliding plate 32 are calculated and designed in advance according to the filling amount of the particles required by the honeycomb screen, namely the void volume of the material leakage opening of the sliding plate 32 is the filling volume of the particles required by the honeycomb screen, and meanwhile, the appearance of the material leakage opening is ensured to be consistent with that of the honeycomb screen as much as possible. The top of the sliding plate 32 is located below the opening of the funnel 4, the bottom of the discharge opening of the sliding plate 32 is attached to the top end face of the drawing plate 33, when the drawing plate 33 slides to the discharge opening, the bottom of the discharge opening can be completely shielded by the drawing plate 33, namely, particles falling into the discharge opening of the sliding plate 32 from the funnel 4 can not continuously fall down, but are stored in the discharge opening of the sliding plate 32, and as the empty volume of the discharge opening is equal to the particle filling volume required by the honeycomb screen, after the discharge opening of the sliding plate 32 is filled, the excessive particles, located outside the discharge opening, at the top of the sliding plate 32 are removed, the drawing plate 33 is removed, and the filling amount of the particles falling into the honeycomb screen from the discharge opening of the sliding plate 32 is controlled in advance.

Other portions of this embodiment are the same as those of embodiment 1, and thus will not be described in detail.

Example 3:

further optimizing the present embodiment based on the above embodiment 1 or 2, as shown in fig. 4, an inclined surface for pressing down the rim of the roller of the telescopic roller limiting device 5 is provided at one end of the funnel mounting assembly 31, which is close to the telescopic roller limiting device 5; the end of the sliding plate 32, which is close to the telescopic roller limiting device 5, is provided with a limiting surface corresponding to the rim of the roller of the telescopic roller limiting device 5.

The relative positional displacement of the funnel mounting unit 31, the slide plate 32 and the honeycomb screen during the filling of the particulate matter should be avoided, and if the relative positional displacement of the above components occurs, the particulate matter may be scattered and the filling may be incomplete. When the particles are filled, the roller of the telescopic roller limiting device 5 is in an extending state, the rim of the roller props against the limiting surface of the sliding plate 32, and the sliding plate 32 cannot slide freely; simultaneously, the inclined plane of funnel installation component 31 also is supported by the rim of gyro wheel, and under the condition of not exerting external force to funnel installation component 31, funnel installation component 31 also can not freely slide, can guarantee through flexible gyro wheel stop device 5 when carrying out the particulate matter and pack, does not take place relative position movement between funnel installation component 31, sliding plate 32, the honeycomb otter board.

After the particulate matter is filled, in order to be convenient for take out of honeycomb otter board, need slip funnel installation component 31 and sliding plate 32, exert external force to funnel installation component 31 this moment, make funnel installation component 31 slide towards the direction that is close to flexible gyro wheel stop device 5, the rim of the gyro wheel of flexible gyro wheel stop device 5 moves downwards under the extrusion of the inclined plane of funnel installation component 31, until the rim of gyro wheel no longer supports the inclined plane of funnel installation component 31 and the spacing face of sliding plate 32, can carry out the free slip of funnel installation component 31 and sliding plate 32 this moment. When the next particulate matter filling is needed, the funnel mounting assembly 31, the sliding plate 32 and the honeycomb screen plate are slid again to an aligned state, at this time, the rim of the roller is not pressed by the inclined surface of the funnel mounting assembly 31 and stretches out again, and the inclined surface of the funnel mounting assembly 31 and the limiting surface of the sliding plate 32 are limited again. Through simple slip funnel installation component 31, can realize the lift of the gyro wheel of mechanical control flexible gyro wheel stop device 5, and then control the spacing of slip funnel installation component 31 and sliding plate 32 and remove spacing for spacing or remove spacing convenient and fast more.

Other portions of this embodiment are the same as those of embodiment 1 or 2 described above, and thus will not be described again.

Example 4:

this embodiment is further optimized based on any one of the foregoing embodiments 1 to 3, as shown in fig. 5, the bottom end surface of the funnel 4 is attached to the top of the sliding plate 32, and a scraping plate is disposed between the bottom of the funnel 4 and the sliding plate 32.

When the funnel 4 is aligned with the discharge opening in the slide plate 32, the particulate matter in the funnel 4 falls into the discharge opening in the slide plate 32, and only the discharge opening of the slide plate 32 is filled with the particulate matter, which is required by the honeycomb screen, and the excessive particulate matter accumulated at the top of the slide plate 32 is not. Therefore, when the funnel 4 is moved in a direction away from the discharge opening of the slide plate 32, the excessive particulate matter located at the outside of the discharge opening at the top of the slide plate 32 needs to be scraped away, so that the excessive particulate matter is prevented from falling into the discharge opening of the slide plate 32, and the filling amount error is avoided. The bottom end face of the funnel 4 and the top of the sliding plate 32 are sequentially set to be attached and filled, and the function of scraping away particles at the top of the sliding plate 32 can be achieved when the funnel 4 moves, but in order to ensure smooth sliding of the funnel 4, the bottom end face of the funnel 4 and the top of the sliding plate 32 cannot be completely attached, and after long-time use, gaps can be formed between the bottom end face of the funnel 4 and the top of the sliding plate 32, so that incomplete scraping can occur. In order to avoid the clout, consequently detachably installs the scraper blade between the bottom of funnel 4 and the top of sliding plate 32, and the bottom of scraper blade is laminated with the top of sliding plate 32, uses the scraper blade to strike off the unnecessary particulate matter in sliding plate 32 top, after long-time the use, only need change the scraper blade can, running cost is lower.

Other portions of this embodiment are the same as any of embodiments 1 to 3 described above, and thus will not be described again.

Example 5:

the present embodiment is further optimized based on any one of the foregoing embodiments 1 to 4, as shown in fig. 6, the telescopic roller limiting device 5 includes a telescopic limiting seat 51, a telescopic limiting rod 52, rollers 53, and springs 54, the telescopic limiting seat 51 is mounted on two sides of the sliding direction of the sliding plate 32, a vertical telescopic limiting rod 52 is slidably mounted inside the telescopic limiting seat 51, the bottom of the telescopic limiting rod 52 is connected with the telescopic limiting seat 51 through the springs 54, the rollers 53 are mounted on the top of the telescopic limiting rod 52, and the rim of the rollers 53 contacts and limits the inclined plane of the funnel mounting assembly 31 and the limiting surface of the sliding plate 32.

When filling particles, namely when the material leakage opening on the sliding plate 32, the funnel 4 on the funnel mounting assembly 31 and the honeycomb screen are aligned, the spring 54 is in a normal state, the telescopic limiting rod 52 is in an extending state, the rim of the roller 53 props against the limiting surface of the sliding plate 32 and the inclined surface of the funnel mounting assembly 31, the sliding plate 32 and the funnel mounting assembly 31 are limited, the sliding plate 32 and the funnel mounting assembly 31 are prevented from sliding, and even the material leakage opening, the funnel 4 and the honeycomb screen are in a relatively static alignment state, so that the filling effect of the particles is effectively ensured. When the funnel mounting assembly 31 is required to be moved away to fill the honeycomb screen after the material leakage opening of the sliding plate 32 is filled, the roller 53 is pressed down, the telescopic limiting rod 52 is lowered at the moment, the spring 54 is compressed until the roller 53 is lowered until the rim of the roller is not propped against the limiting surface of the sliding plate 32 and the inclined surface of the funnel mounting assembly 31 any more, the funnel mounting assembly 31 can be slid open at the moment to fill the honeycomb screen, and after the honeycomb screen is filled, the sliding plate 32 can be slid open to facilitate taking out the filled honeycomb screen.

Other portions of this embodiment are the same as any of embodiments 1 to 4 described above, and thus will not be described again.

Example 6:

the present embodiment is further optimized based on any one of the foregoing embodiments 1 to 5, as shown in fig. 7, a vertical chute 03 is formed on a side surface of the telescopic limit seat 51, a sliding column 04 is disposed on a side surface of the telescopic limit rod 52 corresponding to the chute 03, and the sliding column 04 vertically slides along the chute 03.

The telescopic limiting rod 52 can be a square rod, a round rod or a multi-edge rod, and when the telescopic limiting rod 52 is a square rod or a multi-edge rod, the outline of the telescopic limiting rod 52 is matched with the inner outline of the telescopic limiting seat 51, and the telescopic limiting rod has the function of limiting the telescopic limiting rod 52 to perform circumferential rotation.

When the telescopic limiting rod 52 adopts the round rod, the telescopic limiting rod 52 can not only vertically slide in the telescopic limiting seat 51, but also can circumferentially rotate in the telescopic limiting seat 51, so that the telescopic limiting rod 52 is prevented from circumferentially rotating, and therefore, a vertical sliding groove 03 is formed in the side face of the telescopic limiting seat 51, a sliding column 04 is arranged on the side face of the telescopic limiting rod 52 corresponding to the sliding groove 03, the sliding column 04 can vertically slide in the sliding groove 03, but the sliding column 04 cannot circumferentially rotate due to the limiting of the sliding column 04 by the side face of the sliding groove 03, namely, the telescopic limiting rod 52 cannot circumferentially rotate. The sliding column 04 can be in the form of a screw, a bolt or a limiting pin, the side surface of the telescopic limiting rod 52 is provided with a mounting threaded hole for mounting the screw, the bolt or the limiting pin, and the screw, the bolt or the limiting pin can be quickly dismounted by directly mounting the screw, the bolt or the limiting pin into the mounting threaded hole on the side surface of the telescopic limiting rod 52.

Other portions of this embodiment are the same as any of embodiments 1 to 5 described above, and thus will not be described again.

Example 7:

the embodiment is further optimized based on any one of the above embodiments 1 to 6, as shown in fig. 8, a residue collecting box 01 is installed at the bottom opening of the air extraction seat 2, an air extraction hole is formed in the side surface of the air extraction seat 2, an air extraction connecting pipeline 02 is installed at the air extraction hole, and air extraction equipment is installed on the air extraction connecting pipeline 02.

Because the weight of the particles is generally reduced, the particles are very easy to fly out from the honeycomb net plate under the influence of external force such as wind force, so that the working environment is polluted, and the insufficient filling quantity of the honeycomb net plate can be caused. In order to avoid the above-mentioned situation, therefore install residue collection box 01 in the bottom opening part of the seat 2 of bleeding, offered the gas vent in the side of each seat 2 of bleeding, the gas vent on each seat 2 of bleeding all communicates with the same connection pipeline 02 of bleeding, installs the equipment of bleeding on one side of connection pipeline 02 of bleeding. When the honeycomb screen is filled, the air extraction device is started, and then the air extraction device enables the inside of the air extraction seat 2 to generate air flow from top to bottom to firmly adsorb particles on the gauze of the honeycomb screen, so that the particles are prevented from flying out. The particles and broken particles which are partially dispersed and fall outside are collected in the residue collection box 01 at the bottom of the air extraction seat 2 under the suction of the air extraction equipment, so that the pollution to the working environment is avoided, the recycling of the particles is convenient, and the waste of the particles is reduced

Other portions of this embodiment are the same as any of embodiments 1 to 6 described above, and thus will not be described again.

Example 8:

the embodiment is further optimized based on any one of the embodiments 1 to 7, and limiting baffles are arranged at two ends of the sliding rail.

In order to avoid the sliding and over-positioning of the sliding and leaking device 3, limiting baffles are arranged on the outer sides of the two ends of the sliding rail, and limiting sliding positions of the sliding and leaking device 3 are limited through the limiting baffles.

Other portions of this embodiment are the same as any of embodiments 1 to 7 described above, and thus will not be described again.

Example 9:

this embodiment is further optimized based on any one of the above embodiments 1 to 8, wherein a vertically upward table support is mounted at the rear end of the table 1, and a lighting device is mounted on the table support.

When the honeycomb screen is filled, other devices such as illumination and material supplementing are required to be matched, so that the other devices are convenient to install, a vertically upward workbench bracket is arranged at the rear end of the workbench 1, and an illumination device, a material supplementing device, a power supply device and the like can be arranged on the workbench bracket.

Other portions of this embodiment are the same as any of embodiments 1 to 8 described above, and thus will not be described again.

Example 10:

this embodiment is further optimized based on any one of the above embodiments 1 to 9, and a handle is installed at one end of the sliding material leakage device 3 near the air extraction seat 2.

The sliding material leakage device 3 needs frequent sliding, so that the operator can conveniently and labor-saving when moving the sliding material leakage device 3, and therefore a handle is installed at one end, close to the air extraction seat 2, of the sliding material leakage device 3, and the operator can conveniently slide the funnel installation assembly 4 by pulling or pushing the handle.

Other portions of this embodiment are the same as any of embodiments 1 to 9 described above, and thus will not be described again.

The foregoing description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and any simple modification, equivalent variation, etc. of the above embodiment according to the technical matter of the present invention fall within the scope of the present invention.

Claims (6)

1. The utility model provides a particulate matter quick filling device, includes workstation (1), funnel (4) and honeycomb otter board, its characterized in that, be provided with a plurality of top on workstation (1) and install honeycomb otter board's seat of bleeding (2), the top of seat of bleeding (2) corresponds honeycomb otter board and sets up slip material leakage device (3), the top of slip material leakage device (3) runs through and installs funnel (4), the material leakage mouth department of funnel (4) sets up quantitative metering device; slide rails are arranged on the left side and the right side of the air suction seat (2) on the workbench (1), and the bottoms of the left side and the right side of the sliding material leakage device (3) are slidably arranged on the slide rails through slide blocks; the workbench (1) is provided with telescopic roller limiting devices (5) on the left side and the right side of the sliding material leakage device (3), and one end, close to the telescopic roller limiting devices (5), of the sliding material leakage device (3) is provided with limiting surfaces corresponding to rollers of the telescopic roller limiting devices (5); the sliding material leakage device (3) comprises a funnel installation component (31), a sliding plate (32) and an air extraction plate (33), wherein the funnel installation component (31) is installed above the air extraction seat (2) corresponding to the honeycomb screen, and a funnel (4) is installed on the funnel installation component (31) in a penetrating manner; the bottoms of the left side and the right side of the funnel installation assembly (31) are slidably installed on the sliding rail through the sliding blocks, and a drawing plate (33) is installed between the left side and the right side of the bottom of the funnel installation assembly (31); a sliding plate (32) is slidably arranged between the funnel mounting assembly (31) and the drawing plate (33), a material leakage opening is formed in the sliding plate (32) corresponding to the honeycomb screen plate, and the bottom of the material leakage opening is attached to the top end face of the drawing plate (33); one end of the funnel mounting component (31) close to the telescopic roller limiting device (5) is provided with an inclined plane for pressing down the rim of the roller of the telescopic roller limiting device (5); one end of the sliding plate (32) close to the telescopic roller limiting device (5) is provided with a limiting surface corresponding to the rim of the roller of the telescopic roller limiting device (5); the telescopic roller limiting device (5) comprises a telescopic limiting seat (51), a telescopic limiting rod (52), rollers (53) and springs (54), wherein the telescopic limiting seat (51) is arranged on two sides of the sliding plate (32) in the sliding direction, the vertical telescopic limiting rod (52) is slidably arranged in the telescopic limiting seat (51), the bottom of the telescopic limiting rod (52) is connected with the telescopic limiting seat (51) through the springs (54), the rollers (53) are arranged at the top of the telescopic limiting rod (52), and the rim of the rollers (53) is in contact limiting with the inclined plane of the funnel mounting assembly (31) and the limiting surface of the sliding plate (32); a vertical sliding groove (03) is formed in the side face of the telescopic limiting seat (51), a sliding column (04) is arranged on the side face of the telescopic limiting rod (52) corresponding to the sliding groove (03), and the sliding column (04) vertically slides along the sliding groove (03).

2. The rapid particulate matter filling device according to claim 1, wherein the bottom end surface of the funnel (4) is attached to the top of the sliding plate (32), and a scraper is provided between the bottom of the funnel (4) and the sliding plate (32).

3. The rapid particulate matter filling device according to claim 1, wherein a residue collection box (01) is installed at the bottom opening of the air extraction seat (2), an air extraction hole is formed in the side surface of the air extraction seat (2), an air extraction connecting pipeline (02) is installed at the air extraction hole, and air extraction equipment is installed on the air extraction connecting pipeline (02).

4. The rapid particulate matter filling device according to claim 1, wherein limiting baffles are arranged at two ends of the sliding rail.

5. The rapid particulate matter filling device according to claim 1, wherein a vertically upward table support is mounted at the rear end of the table (1), and a lighting device is mounted on the table support.

6. The rapid particulate matter filling device according to claim 1, wherein a handle is mounted at one end of the sliding material leakage device (3) close to the air suction seat (2).