CN113927401B

CN113927401B - Glass edging machine with wastewater circulation collection function

Info

Publication number: CN113927401B
Application number: CN202111304651.6A
Authority: CN
Inventors: 崔银标
Original assignee: Jiangsu Chengcheng Energy Saving Glass Co ltd
Current assignee: Jiangsu Chengcheng Energy Saving Glass Co ltd
Priority date: 2021-11-05
Filing date: 2021-11-05
Publication date: 2023-06-09
Anticipated expiration: 2041-11-05
Also published as: CN113927401A

Abstract

The invention provides a glass edging machine with a wastewater circulation collection function, which comprises a polishing device, wherein water pumps are arranged on two sides of the polishing device, a spray head penetrates through one side of the water pump, a filter screen is embedded on the inner side of the polishing device, a transmission mechanism capable of automatically collecting wastewater is arranged in the polishing device, a matched polishing disc and a motor are arranged on the inner side of the polishing device, the water pump is electrically connected with a power supply through a power supply wire, the spray heads are respectively arranged on two sides of the filter screen, a plurality of holes with the aperture of 0.5-1cm penetrate through the inner side of the filter screen, clear water enters the inner side of an inner cavity of the polishing device through a flow guide frame, clear water enters the inner side of a water pipe, when the clear water penetrates through the inner side of the water pipe, the inner side of the water pipe is in a vacuum state, and clear water enters the inner side of a water collecting frame through the water pipe.

Description

Glass edging machine with wastewater circulation collection function

Technical Field

The invention relates to the technical field of glass processing, in particular to a glass edging machine with a wastewater circulation collection function.

Background

The glass edging machine mainly aims at flattening glass and manufacturing special shapes, when the glass edging machine is used, the glass edging position is required to be washed by water flow, residues on the surface of the glass are cleaned, and the glass edging machine aims at technical teaching of the edging machine;

at present, CN201920267052.3 in the prior art is a glass edging machine with a wastewater circulation collection function, and wastewater circulation collection is disclosed, so that the glass edging machine is convenient for glass edging operation, and the grinding wheel can be adjusted in height according to the thickness of glass through a hydraulic rod, thereby being beneficial to later use; the circulation of cooling water for glass edging is realized through the arrangement of the wastewater circulation collection assembly; the waste of water resources is reduced, but the following problems still exist;

the comparison document shows that the edging machine needs clear water to be washed and cooled when edging, and because the clear water flows downwards after being used, the filtered clear water needs the water pump to drive upwards, so that the edging machine can not automatically drive the clear water to upwards flow by utilizing the siphon principle, and the wastewater is recycled.

Disclosure of Invention

In order to solve the technical problems, the invention provides a glass edging machine with a wastewater circulation collection function, so as to solve the problems described in the background art.

The invention discloses a glass edging machine with a wastewater circulation collection function, which is characterized by comprising the following specific technical means: the utility model provides a glass edging machine with waste water circulation collection function, includes polishing equipment, the water pump is installed to the both sides of polishing equipment, one side of water pump runs through there is the shower nozzle, the inboard of polishing equipment is inlayed and is had the filter screen, but polishing equipment's inside is equipped with the drive mechanism of automatic collection waste water.

Further, the inboard of equipment of polishing is equipped with supporting mill and motor, and the water pump passes through power cord and power electric connection, and the shower nozzle sets up in the both sides of filter screen respectively, and the inside of filter screen runs through has a plurality of apertures to be 0.5-1cm hole, and waste water passes through the inside of filtration entering equipment of polishing of filter screen.

Further, the drive mechanism includes filter layer, water conservancy diversion frame, water pipe, catchment frame, pipeline and lower track, and the filter layer sets up in the lower extreme of filter screen, and the water pipe runs through in the inside of polishing equipment in the inner wall of polishing equipment, and catchment frame runs through in the lower extreme of water pipe, and the pipeline runs through in the both sides of catchment frame, and lower track installs in the inside of catchment frame.

The filter layer is made of active carbon, the flow guide frame and the filter layer are arranged in an up-down corresponding mode, the flow guide frame is inclined downwards to be 25-45 degrees, the water pipe is arranged in a bending mode, the water collecting frame is arranged in an isosceles trapezoid mode, and the water collecting frame is made of rubber.

Furthermore, one end of the pipeline penetrates through the water pump, the pipeline is transversely L-shaped, the diameter of one end of the pipeline, which is close to the water pump, is 0.5-0.8cm smaller than that of the other end of the pipeline, and the lower track is vertically and correspondingly arranged with the lower end of the water pipe.

Furthermore, the opening at the lower end of the flow guide frame is 5-8cm, the flow guide frame and the water pipe are vertically and correspondingly arranged, an inner cavity is formed in the flow guide frame and the polishing equipment, the water pipe is arranged in the inner cavity, and the height of the inner cavity is 2-8cm.

Further, the water pipe is arranged in an inverted L shape, wherein the upper end of the inverted L shape is arranged in a semicircular arc shape, the semicircular arc angle is arranged at 180 degrees, the space between the bent part of the water pipe and the inner wall of polishing equipment is 1-3cm, the inner diameter of the water pipe is 2-4cm, the inside of the water collecting frame is arranged in a sealed shape, and the water collecting frame can facilitate clean water inside the water pipe to enter the inside of the pipeline.

Further, the transmission mechanism comprises an upper rail, a sliding frame, a sliding block, a sleeve, a telescopic rod and an air bag, wherein the upper rail is arranged below the flow guiding frame, the sliding frame slides in the upper rail, the sliding block slides in the upper rail, the telescopic rod and the sleeve are sequentially arranged on one side of the sliding block, and the air bag is inlaid in the sleeve.

Further, the upper rail is concave, the sliding frame is rectangular triangular, the sleeve is arranged on the inner wall of the upper rail, the telescopic rod is slidably nested in the sleeve, the air bag is elliptical, and the sliding block penetrates through and slides in the upper rail.

Furthermore, the shape setting of utilizing the carriage can increase carriage and clear water area of contact, and the carriage is horizontal reciprocating sliding in the inside of last track.

Further, sleeve and telescopic link are supporting to be set up, and the telescopic link is retracted to telescopic inside when the slider slides, and the telescopic link extends to telescopic outside when the slider is static.

Further, the transmission mechanism comprises a support, an inclined plate, raised strips, a rotating shaft, a connecting rod and rollers, wherein the support slides in the lower track, the rollers rotate at the lower end of the support, the inclined plate and the raised strips are respectively embedded in one side of the support, and the rotating shaft and the connecting rod swing in one side of the raised strips in sequence.

Further, the support slides in the inside both sides of lower track respectively, and the slip direction is opposite, and swash plate and sand grip are slope 25-45 and set up, and the pivot swings in one side of sand grip, and the one end of connecting rod is installed in the outside of gyro wheel, and the connecting rod is slope 15-45 setting.

The beneficial effects are that:

1. clear water enters the inner cavity of the polishing equipment through the flow guide frame, clear water enters the water pipe, when the clear water penetrates through the water pipe, the water pipe is arranged in a vacuum state, the clear water enters the water collecting frame through the water pipe, and the water collecting frame utilizes a siphon principle because the water pipe is arranged in a vacuum state, the clear water enters the water pump through the pipeline, and the clear water can be assisted to flow upwards quickly into the water pump by utilizing different diameters of two sides of the pipeline, so that the transmission mechanism can form automatic filtration and circulation wastewater by utilizing the siphon principle;

2. clear water flows to the lower end of the flow guiding frame, impacts to one side of the sliding frame, the sliding frame slides in the upper rail, the sliding frame impacts to one side of the sliding block, the sliding block drives the telescopic rod to slide to one side of the sleeve, the telescopic rod is extruded to one side of the air bag, the elastic resilience of the air bag is utilized, the telescopic rod and the sliding block can be driven to return, the sliding frame can be driven to return, and therefore the sliding frame can be convenient for assisting clear water to enter the water pipe;

3. the support is through gyro wheel in orbital inboard slip down, and the inside that clear water got into the pipeline can be assisted to the support, and the upper end of sand grip receives clear water impact and is the down swing, through lever principle, and the sand grip drives the connecting rod through the pivot and is the upward movement, and the connecting rod can assist the gyro wheel in orbital roll down, and the gyro wheel can assist the support in orbital inside slip down.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention.

FIG. 2 is a schematic cross-sectional view of a dewatering drum according to the present invention.

Fig. 3 is a schematic view showing a partial sectional structure of the polishing apparatus of the present invention.

Fig. 4 is a schematic view of the water pipe structure of the present invention.

Fig. 5 is a schematic view of the upper track structure of the present invention.

FIG. 6 is a schematic cross-sectional view of a sleeve according to the present invention.

FIG. 7 is a schematic view of a lower track assembly according to the present invention.

Fig. 8 is a schematic cross-sectional view of a carriage according to the present invention.

In fig. 1 to 8, the correspondence between the component names and the reference numerals is:

1-polishing equipment, 101-water pumps, 102-spray heads, 2-filter screens, 201-filter layers, 202-guide frames, 3-water pipes, 4-upper rails, 401-sliding frames, 402-sliding blocks, 403-sleeves, 404-telescopic rods, 405-air bags, 5-water collecting frames, 501-pipelines, 502-lower rails, 6-brackets, 601-inclined plates, 602-raised strips, 603-rotating shafts, 604-connecting rods and 605-rollers.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments, and all other embodiments obtained by those skilled in the art without making any inventive effort based on the embodiments of the present invention are within the scope of protection of the present invention.

Examples:

as shown in fig. 1 to 8:

example 1: the glass edging machine with the wastewater circulation collection function comprises a polishing device 1, wherein water pumps 101 are arranged on two sides of the polishing device 1, a spray head 102 penetrates through one side of the water pumps 101, a filter screen 2 is inlaid on the inner side of the polishing device 1, and a transmission mechanism capable of automatically collecting wastewater is arranged in the polishing device 1;

wherein: the inner side of the polishing equipment 1 is provided with a matched polishing disc and a motor, the water pump 101 is electrically connected with a power supply through a power line, the spray heads 102 are respectively arranged on two sides of the filter screen 2, a plurality of holes with the aperture of 0.5-1cm penetrate through the filter screen 2, waste water enters the polishing equipment 1 through the filtration of the filter screen 2, and the transmission mechanism can automatically filter the waste water and then convey the filtered waste water into the water pump 101 to form waste water collection circulation by utilizing the siphon principle;

referring to fig. 2, 3 and 5 of the drawings, the transmission mechanism includes a filter layer 201, a guide frame 202, a water pipe 3, a water collecting frame 5, a pipeline 501 and a lower track 502, wherein the filter layer 201 is arranged at the lower end of the filter screen 2, the guide frame 202 is arranged on the inner wall of the polishing device 1, the water pipe 3 penetrates through the interior of the polishing device 1, the water collecting frame 5 penetrates through the lower end of the water pipe 3, the pipeline 501 penetrates through both sides of the water collecting frame 5, and the lower track 502 is arranged in the water collecting frame 5;

the filter layer 201 is made of active carbon, the flow guide frame 202 and the filter layer 201 are correspondingly arranged up and down, the flow guide frame 202 is inclined downwards to form a 25-45 DEG arrangement, the water pipe 3 is in a curved arrangement, the water collecting frame 5 is in an isosceles trapezoid arrangement, the water collecting frame 5 is made of rubber, one end of the pipeline 501 penetrates through the water pump 101, the pipeline 501 is in a transverse L shape arrangement, the diameter of one end of the pipeline 501, which is close to the water pump 101, is 0.5-0.8cm smaller than the diameter of the other end, and the lower track 502 is vertically and correspondingly arranged with the lower end of the water pipe 3;

wherein: clear water enters the inner cavity of the polishing equipment 1 through the flow guide frame 202, clear water enters the water pipe 3, when the clear water penetrates through the water pipe 3, the water pipe 3 is arranged in a vacuum state, the clear water enters the water collecting frame 5 through the water pipe 3, and the water collecting frame 5 utilizes the siphon principle because the water pipe 3 is arranged in a vacuum state, the clear water enters the water pump 101 through the pipeline 501, and the clear water can be assisted to flow upwards quickly into the water pump 101 by utilizing the different diameters of the two sides of the pipeline 501, so that the transmission mechanism can form automatic filtration and circulation waste water by utilizing the siphon principle;

the waste water is filtered into clear water through the filter screen 2 and the filter layer 201, the clear water enters the inner cavity of the polishing equipment 1 through the guide frame 202, the clear water enters the water pipe 3, when the clear water penetrates through the water pipe 3, the water pipe 3 is arranged in a vacuum state, the clear water enters the water collecting frame 5 through the water pipe 3, the water collecting frame 5 is arranged in a vacuum state, the siphon principle is utilized in the water collecting frame 5, the clear water enters the water pump 101 through the pipeline 501, and the clear water can be assisted to flow upwards rapidly into the water pump 101 by utilizing different diameters of two sides of the pipeline 501;

wherein: the filter layer 201, the filter layer 201 can filter impurities in the wastewater, and the filtered wastewater enters the guide frame 202;

the lower end opening of the flow guiding frame 202 is 5-8cm, and the flow guiding frame 202 and the water pipe 3 are vertically and correspondingly arranged;

the guide frame 202 and the grinding equipment 1 form an inner cavity, the water pipe 3 is arranged in the inner cavity, and the height of the inner cavity is 2-8cm;

the water pipe 3 is arranged in an inverted L shape, wherein the upper end of the inverted L shape is arranged in a semicircular arc shape, the semicircular arc angle is 180 degrees, the bent part of the water pipe 3 is spaced 1-3cm away from the inner wall of the polishing equipment 1, and the inner diameter of the water pipe 3 is 2-4cm;

the water collecting frame 5 is arranged in a closed mode, and the water collecting frame 5 can facilitate clear water in the water pipe 3 to enter the pipeline 501;

the pipeline 501, clear water in the water collecting frame 5 enters the water pump 101 through the pipeline 501, so that wastewater is automatically recycled;

the lower track 502, the side of the lower track 502 is concavely arranged, and the two sides of the lower track 502 are separated from one side of the pipeline 501 by 0.5 cm to 1cm;

example 2: referring to fig. 2, 4 and 5 of the drawings, embodiment 2 is different from embodiment 1 in that the transmission mechanism includes an upper rail 4, a sliding frame 401, a sliding block 402, a sleeve 403, a telescopic rod 404 and an air bag 405, wherein the upper rail 4 is installed below the air guiding frame 202, the sliding frame 401 slides inside the upper rail 4, the sliding block 402 slides inside the upper rail 4, the telescopic rod 404 and the sleeve 403 are sequentially arranged on one side of the sliding block 402, and the air bag 405 is embedded inside the sleeve 403;

the upper rail 4 is concavely arranged, the sliding frame 401 is in a right-angle triangle shape, the sleeve 403 is arranged on the inner wall of the upper rail 4, the telescopic rod 404 is slidably nested in the sleeve 403, the air bag 405 is in an ellipse shape, and the sliding block 402 penetrates through the upper rail 4;

wherein: clear water flows to the lower end of the flow guiding frame 202 and impacts to one side of the sliding frame 401, the sliding frame 401 slides in the upper track 4, the sliding frame 401 impacts to one side of the sliding block 402, the sliding block 402 drives the telescopic rod 404 to slide to one side of the sleeve 403, the telescopic rod 404 is extruded to one side of the air bag 405, the elastic resilience of the air bag 405 can drive the telescopic rod 404 and the sliding block 402 to return, and then the sliding frame 401 can be driven to return, so that the sliding frame 401 can conveniently assist clear water to enter the water pipe 3;

clear water flows to the lower end of the flow guiding frame 202 and impacts to one side of the sliding frame 401, the sliding frame 401 slides in the upper track 4, the sliding frame 401 impacts to one side of the sliding block 402, the sliding block 402 drives the telescopic rod 404 to slide to one side of the sleeve 403, the telescopic rod 404 is extruded to one side of the air bag 405, the elastic resilience of the air bag 405 is utilized, the telescopic rod 404 and the sliding block 402 can be driven to return, and then the sliding frame 401 can be driven to return;

wherein: the upper rails 4 are respectively arranged at two sides of the diversion frame 202, and the upper rails 4 facilitate the sliding frame 401 to slide horizontally;

the sliding frame 401 is arranged in a shape of the sliding frame 401, so that the contact area between the sliding frame 401 and clean water can be increased, and the sliding frame 401 horizontally slides back and forth in the upper track 4;

sleeve 403, sleeve 403 and telescopic rod 404 are set up together, when the slide block 402 slides, the telescopic rod 404 is retracted into the interior of sleeve 403, when the slide block 402 is stationary, the telescopic rod 404 extends to the outside of sleeve 403;

the telescopic rod 404, the telescopic rod 404 and the sliding block 402 are arranged in a transverse T shape;

the air bags 405 are vertically arranged in an oval shape, and the air bags 405 can assist the telescopic rods 404 to return;

example 3: referring to fig. 6, 7 and 8 of the drawings, embodiment 3 is different from embodiment 1 and 2 in that the transmission mechanism comprises a bracket 6, an inclined plate 601, a convex strip 602, a rotating shaft 603, a connecting rod 604 and a roller 605, wherein the bracket 6 slides in the lower track 502, the roller 605 rotates at the lower end of the bracket 6, the inclined plate 601 and the convex strip 602 are respectively embedded at one side of the bracket 6, and the rotating shaft 603 and the connecting rod 604 swing at one side of the convex strip 602 in sequence;

the brackets 6 slide on two sides of the inside of the lower track 502 respectively, the sliding directions are opposite, the inclined plate 601 and the raised strips 602 are inclined by 25-45 degrees, the rotating shaft 603 swings on one side of the raised strips 602, one end of the connecting rod 604 is arranged on the outer side of the roller 605, and the connecting rod 604 is inclined by 15-45 degrees;

wherein: the support 6 slides on the inner side of the lower track 502 through the roller 605, the support 6 can assist clear water to enter the pipeline 501, the upper ends of the raised strips 602 are impacted by the clear water to swing downwards, the raised strips 602 drive the connecting rods 604 to move upwards through the rotating shafts 603 through the lever principle, the connecting rods 604 can assist the roller 605 to roll on the lower track 502, and the roller 605 can assist the support 6 to slide on the inner side of the lower track 502;

the clear water is impacted to the side surface of the bracket 6 through the water pipe 3, the bracket 6 slides on the inner side of the lower track 502 through the roller 605, the bracket 6 can assist the clear water to enter the pipeline 501, the upper end of the raised strip 602 is impacted by the clear water to swing downwards, the raised strip 602 drives the connecting rod 604 to move upwards through the rotating shaft 603 through the lever principle, the connecting rod 604 can assist the roller 605 to roll on the lower track 502, and the roller 605 can assist the bracket 6 to slide on the inner side of the lower track 502;

wherein: the shape of the bracket 6 is the same as that of the sliding frame 401, and the bracket 6 slides in the lower track 502 through the roller 605;

the sloping plate 601, the sloping plate 601 is arranged on the sloping surface of the bracket 6, clean water impacts the upper end of the sloping plate 601, and the bracket 6 can be assisted in the lower track 502;

the roller 605, the roller 605 slides in the lower rail 502, and can assist the bracket 6 to move in the lower rail 502;

the connecting rod 604, the connecting rod 604 is arranged in the bracket 6, the connecting rod 604 is spaced 1cm to 2cm away from the center of the roller 605, and the connecting rod 604 can assist the roller 605 to move in the lower track 502.

Claims

1. Glass edging machine with waste water circulation collection function, its characterized in that: comprising

The polishing device comprises polishing equipment (1), wherein water pumps (101) are arranged on two sides of the polishing equipment (1), a spray head (102) penetrates through one side of each water pump (101), and a filter screen (2) is inlaid on the inner side of the polishing equipment (1);

the inner side of the polishing equipment (1) is provided with a matched polishing disc and a motor, the water pump (101) is electrically connected with a power supply through a power line, and the spray heads (102) are respectively arranged at two sides of the filter screen (2);

the waste water enters the polishing equipment (1) through the filtration of the filter screen (2);

the transmission mechanism is arranged in the polishing equipment (1) and can automatically collect wastewater;

the filter layer (201) and the flow guide frame (202), the filter layer (201) is arranged at the lower end of the filter screen (2), and the flow guide frame (202) is arranged on the inner wall of the polishing equipment (1);

the filter layer (201) is made of active carbon, the guide frame (202) and the filter layer (201) are arranged up and down correspondingly, and the guide frame (202) is inclined downwards at 25-45 degrees;

the transmission mechanism comprises a water pipe (3), a water collecting frame (5), a pipeline (501) and a lower track (502), wherein the water pipe (3) penetrates through the polishing equipment (1), the water collecting frame (5) penetrates through the lower end of the water pipe (3), the pipeline (501) penetrates through two sides of the water collecting frame (5), and the lower track (502) is arranged in the water collecting frame (5);

the water pipe (3) is arranged in a bending manner, the water pipe (3) is arranged in an inverted L shape, the upper end of the inverted L shape is arranged in a semicircular arc shape, the semicircular arc angle is 180 degrees, the bending position of the water pipe (3) is spaced 1-3cm from the inner wall of the polishing equipment (1), and the inner diameter of the water pipe (3) is 2-4cm;

the water collecting frame (5) is arranged in an isosceles trapezoid, the water collecting frame (5) is made of rubber, one end of the pipeline (501) penetrates through the water pump (101), the pipeline (501) is arranged in a transverse L shape, the diameter of one end of the pipeline (501) close to the water pump (101) is 0.5-0.8cm smaller than that of the other end, and the lower rail (502) is vertically and correspondingly arranged with the lower end of the water pipe (3);

the transmission mechanism comprises an upper rail (4), a sliding frame (401), a sliding block (402), a sleeve (403), a telescopic rod (404) and an air bag (405), wherein the upper rail (4) is arranged below the flow guiding frame (202), the sliding frame (401) slides in the upper rail (4), the sliding block (402) slides in the upper rail (4), the telescopic rod (404) and the sleeve (403) are sequentially arranged on one side of the sliding block (402), and the air bag (405) is inlaid in the sleeve (403);

the upper rail (4) is concavely arranged, the sliding frame (401) is in a right-angle triangle shape, and the sleeve (403) is arranged on the inner wall of the upper rail (4);

the telescopic rod (404) is slidably nested in the sleeve (403), the air bag (405) is arranged in an oval shape, and the sliding block (402) penetrates through and slides in the upper rail (4);

the air bag (405), the air bag (405) is vertical oval setting, and telescopic link (404) return can be assisted to the air bag (405).

2. The glass edging machine with wastewater circulation collection function according to claim 1, characterized in that: the transmission mechanism comprises a support (6), an inclined plate (601), raised strips (602), a rotating shaft (603), a connecting rod (604) and a roller (605), wherein the support (6) slides in the lower track (502), the roller (605) rotates at the lower end of the support (6), the inclined plate (601) and the raised strips (602) are respectively inlaid on one side of the support (6), and the rotating shaft (603) and the connecting rod (604) sequentially swing on one side of the raised strips (602).

3. The glass edging machine with wastewater circulation collection function according to claim 2, characterized in that: the support (6) slides on two sides of the inside of the lower track (502) respectively, the sliding directions are opposite, the inclined plate (601) and the convex strips (602) are inclined by 25-45 degrees, and the rotating shaft (603) swings on one side of the convex strips (602).

4. The glass edging machine with wastewater circulation collection function according to claim 2, characterized in that: one end of the connecting rod (604) is arranged at the outer side of the roller (605), and the connecting rod (604) is inclined by 15-45 degrees;

the connecting rod (604) is arranged in the bracket (6), the distance between the connecting rod (604) and the circle center of the roller (605) is 1-2cm, and the connecting rod (604) can assist the roller (605) to move in the lower track (502).