CN111195615B

CN111195615B - Working method of dust removal equipment before building material testing

Info

Publication number: CN111195615B
Application number: CN202010078365.1A
Authority: CN
Inventors: 汤志华; 凌海明; 陈祥营; 吴灿彬; 曹宇; 徐燕桥
Original assignee: Wuxi Xiaoming Intellectual Property Service Co ltd
Current assignee: Wuxi Xiaoming Intellectual Property Service Co ltd
Priority date: 2020-02-06
Filing date: 2020-02-06
Publication date: 2021-07-13
Anticipated expiration: 2040-02-06
Also published as: CN113289949A; CN111195615A; CN112657879A; CN113275282A

Abstract

The invention discloses a working method of dust removal equipment before building material testing, which comprises a dust removal chamber, a base, an inlet platform, an outlet platform, a first hydraulic stay bar and a second hydraulic stay bar, wherein four universal wheels are installed at four corners of the bottom of the base, a dust removal pipe is installed on the side surface of the base, the bottom of the first hydraulic stay bar is connected with the bottom of the front surface of the base, the top of the first hydraulic stay bar is connected with the bottom of the inlet platform, the bottom of the second hydraulic stay bar is connected with the bottom of the back surface of the base, the top of the second hydraulic stay bar is connected with the bottom of the outlet platform, one end of the inlet platform is connected with the top of the front surface of the base through a first hinge, one end of the outlet platform is connected with the top of the back surface of the base through a second hinge, the inlet platform comprises a first bottom plate, first rolling wheels and side, Guide roller, first side dust removal mechanism, second side dust removal mechanism, end dust removal mechanism, transport mechanism, baffle.

Description

Working method of dust removal equipment before building material testing

Technical Field

The invention belongs to the field of building material processing equipment, and particularly relates to a working method of dust removal equipment before building material testing.

Background

Building materials, such as concrete blocks, require surface cleaning prior to sampling for testing. When the surface is completely clean and has no various attached particles and burrs, the test device can be put into a test machine for testing.

In the prior art, the cleaning work before the test is usually performed by brushing by workers with a brush, which takes a long time.

It is therefore desirable to provide a method to replace the manual dust removal currently employed.

Disclosure of Invention

In order to solve the existing problems, the invention provides a working method of dust removal equipment before a building material test.

The invention is realized by the following technical scheme:

the working method of the dust removal equipment before the building material test is characterized by comprising a dust removal chamber, a base, an inlet platform, an outlet platform, a first hydraulic support rod and a second hydraulic support rod, wherein four universal wheels are installed at four corners of the bottom of the base, a dust removal pipe is installed on the side face of the base, the bottom of the first hydraulic support rod is connected with the front bottom of the base, the top of the first hydraulic support rod is connected with the bottom of the inlet platform, the bottom of the second hydraulic support rod is connected with the bottom of the back of the base, the top of the second hydraulic support rod is connected with the bottom of the outlet platform, one end of the inlet platform is connected with the front top of the base through a first hinge, one end of the outlet platform is connected with the top of the back of the base through a second hinge, the inlet platform comprises a first bottom plate, a first roller and a side baffle, and the outlet platform, And the dust removal chamber comprises a dust cover, a front dust-proof curtain, a rear dust-proof curtain, a guide roller, a first side dust-removing mechanism, a second side dust-removing mechanism, a bottom dust-removing mechanism, a conveying mechanism and a partition plate.

Preferably, the first side dust removing mechanism comprises a first driving machine, a first driving rotary disc, a first driven rotary disc, a first belt, a first rotary shaft, a first upper sleeve, a first lower sleeve, a first brush, a first dust suction port, a first dust suction pipe, a sliding rail, a sliding block back plate, a connecting sleeve, a screw, a rotary disc and a handle, the first upper sleeve rotates together with the first rotary shaft in a key mode, the first brush is mounted on the outer side of the first upper sleeve, a first air hole is formed in the outer wall of the first upper sleeve, the first air hole is connected with an air channel inside the first rotary shaft, and the air channel is connected with a blower capable of rotating forwards and backwards. The first brush is detachably inserted into the first air hole, namely the tail part of the first brush is provided with a plug which can be inserted into the first air hole, the slide rail back plate is connected to the first lower sleeve, one side of the connecting plate is connected to the slide rail back plate, the back part of the slide block is connected to the connecting plate, the front part of the slide block is placed on the slide rail, the slide rail is connected with the base shell through a fixing device, the other side of the connecting plate is connected to the connecting sleeve, the first driving machine is connected to the connecting sleeve, the screw rod penetrates through the connecting sleeve, one end of the screw rod is connected with the rotary disc, the handle is installed on the rotary disc, an internal thread matched with the external thread of the screw rod is arranged in the connecting sleeve, and the connecting sleeve can be driven to move leftwards or rightwards along, the first side dust removal mechanism is driven to move leftwards or rightwards. When the device works, the number of the air blowing holes and the number of the brush sets (namely the first brushes) are adjusted according to the attachment degree of particles on the surface of a test piece to be tested, if the attachment degree of the particles on the surface of an object is serious, all the air holes are used as sockets of the brush sets, and the number of the brush sets is increased so as to increase the brushing effect on the surface of the object; if the particle attachment degree is normal, half of the air holes are used as air blowing holes, and half of the air holes are used as sockets of the brush set. If the surface of the test piece is smooth and the particles are rarely attached, all the brush groups are disassembled, all the air holes are reserved as the air blowing function, and the dust blowing capacity is improved.

Preferably, the second side dust removing mechanism comprises a second driving machine, a second driving turntable, a second driven turntable, a second belt, a second rotating shaft, a second upper sleeve, a second lower sleeve, a second brush, a second dust suction port and a second dust suction pipe, the second upper sleeve rotates together with the second rotating shaft in a key mode, the second brush is installed on the outer side of the second upper sleeve, a second air hole is formed in the outer wall of the second upper sleeve, and the second air hole and the second brush are structurally and functionally like the first side dust removing mechanism. The second dust suction pipe is connected with the second lower sleeve through a fixer. The dust removing mechanism is generally arranged on the first side according to the attachment degree of particles on the surface of a sample to be tested during operation.

Preferably, the bottom dust removal mechanism comprises a third driving machine, a third driving rotary table, a third driven rotary table, a third belt, a third rotating shaft, a third brush, a third dust suction port and a third dust suction pipe, and the third driving machine is fixed on the combined plate through a rack. When the dust collection device works, a test piece which is brushed by the first side dust collection mechanism and the second side dust collection mechanism is continuously and forwards transmitted to the bottom dust collection mechanism by the transmission mechanism, and the dust collection treatment, the third dust collection port and the third dust collection pipe are continuously carried out by the third brush.

Preferably, if the dust in the interior of the equipment is too much due to dust removal, and the third dust suction port cannot absorb all the dust in the previous process in time, the blowing mode of the dust removal mechanism on one side is modified into the suction mode, and the dust removal mechanism on the other side still remains in the blowing mode, that is: the air blowing hole on one side is changed into the air suction hole, and the other side is kept unchanged. Specifically, the method comprises the following steps: the dust removal mechanism on one side adjusts the number of the air suction holes and the number of the brush groups according to the attachment degree of the particles on the surface of the test piece to be tested, if the attachment degree of the particles on the surface of the object is serious, all the air holes are used as sockets of the brush groups, and the number of the brush groups is increased so as to increase the brushing effect on the surface of the object; if the particle attachment degree is normal, half of the air holes are used as air suction holes, and half of the air holes are used as sockets of the brush set; if the surface of the test piece is smooth and the particles are rarely attached, all the brush groups are disassembled, all the air holes are reserved as air suction functions, and the dust suction capacity is improved. The dust removal mechanism on the other side adjusts the number of the air blowing holes and the number of the brush groups according to the attachment degree of the particles on the surface of the test piece to be tested, if the attachment degree of the particles on the surface of the object is serious, all the air holes are used as sockets of the brush groups, and the number of the brush groups is increased so as to increase the brushing effect on the surface of the object; if the particle attachment degree is normal, half of the air holes are used as air blowing holes, and half of the air holes are used as sockets of the brush set. If the surface of the test piece is smooth and the particles are rarely attached, all the brush groups are disassembled, all the air holes are reserved as the air blowing function, and the dust blowing capacity is improved. At this moment, 2 blowers need to be additionally arranged, and air passages inside the first and second side dust removal mechanisms are separately connected with each blower.

Preferably, the conveying mechanism comprises a fourth driving machine, a gearbox, a driving rotating shaft, a tensioning rotating shaft, a first driven rotating shaft, a second driven rotating shaft, a third driven rotating shaft, a fourth driven rotating shaft and a conveying belt group, and one end of the driving rotating shaft, one end of the tensioning rotating shaft, one end of the first driven rotating shaft, one end of the second driven rotating shaft, one end of the third driven rotating shaft and one end of the fourth driven rotating shaft are all installed on the combined plate.

Preferably, the conveyor belt assembly comprises a plurality of conveyor belts.

Preferably, the third dust suction pipe is connected to the dust removal pipe.

Compared with the prior art, the invention has the beneficial effects that: the invention can fully remove dust on the articles to be dust-absorbed through the side brush and the bottom brush, and the dust removing chamber can effectively block dust and prevent secondary pollution. The number of the air blowing holes and the number of the brush sets can be adjusted according to the attachment degree of particles on the surface of an object to be sucked. If the attachment degree of the particles on the surface of the object is serious, most of the air holes are used as sockets of the brushes, and the number of the brushes is increased so as to increase the brushing effect on the surface of the object; if the particles are less attached, most of the air holes are used as air blowing holes or air suction holes, so that the dust blowing or absorbing capacity is improved. The invention can also adjust the direct distance between the side dust removing brushes to adapt to different sizes of the objects to be removed. The invention has simple structure, powerful function and wide application range.

Drawings

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

FIG. 2 is a second schematic view of the present invention.

FIG. 3 is a schematic diagram of a third structure of the present invention.

FIG. 4 is a side view of the present invention.

FIG. 5 is a schematic view of the structure of the entrance platform of the present invention.

FIG. 6 is a first schematic view of a side dusting structure of the present invention.

FIG. 7 is a second schematic view of a side dusting structure of the present invention.

FIG. 8 is a schematic structural view of a bottom dusting and conveying mechanism according to the present invention.

FIG. 9 is a first plan view of the bottom dusting and transfer mechanism of the present invention.

FIG. 10 is a second plan view of the bottom dusting and transfer mechanism of the present invention.

The labels in the figures are: 1-a dust chamber, 2-a base, 3-an inlet platform, 4-an outlet platform, 5-a first hydraulic strut, 6-a second hydraulic strut, 7-a universal wheel, 8-a dust removing pipe, 9-a first hinge, 10-a second hinge, 11-a first base plate, 12-a first roller, 13-a side baffle, 14-a second base plate, 15-a second roller, 16-a dust cover, 17-a front dust curtain, 18-a rear dust curtain, 19-a guide roller, 20-a first side dust removing mechanism, 21-a second side dust removing mechanism, 22-a bottom dust removing mechanism, 23-a conveying mechanism, 24-a partition plate, 25-a first driving machine, 26-a first driving turntable, 27-a first driven turntable, 28-a first belt, 29-a first rotating shaft, 30-a first upper sleeve, 31-a first lower sleeve, 32-a first brush, 33-a first dust suction port, 34-a first dust suction pipe, 35-a slide rail, 36-a slide block, 37-a slide block back plate, 38-a connecting plate, 39-a connecting sleeve, 40-a screw rod, 41-a rotary disc, 42-a handle, 43-a first air hole, 44-a second driving machine, 45-a second driving rotary disc, 46-a second driven rotary disc, 47-a second belt, 48-a second rotating shaft, 49-a second upper sleeve, 50-a second lower sleeve, 51-a second brush, 52-a second dust suction port, 53-a second dust suction pipe, 54-a second air hole, 55-a combined plate and 56-a third driving machine, 57-third driving turntable, 58-third driven turntable, 59-third belt, 60-third rotating shaft, 61-third brush, 62-third dust suction port, 63-third dust suction pipe, 64-frame, 65-conveying belt group, 66-fourth driving machine, 67-gear box, 68-driving rotating shaft, 69-tensioning rotating shaft, 70-first driven rotating shaft, 71-second driven rotating shaft, 72-third driven rotating shaft and 73-fourth driven rotating shaft.

Detailed Description

The invention is described in further detail below with reference to the following detailed description and accompanying drawings:

as shown in fig. 1 to 5, a working method of a dust removing device before a building material test is characterized by comprising a dust removing chamber 1, a base 2, an inlet platform 3, an outlet platform 4, a first hydraulic stay bar 5 and a second hydraulic stay bar 6, wherein four universal wheels 7 are installed at four corners of the bottom of the base 2, a dust removing pipe 8 is installed on the side surface of the base 2, the bottom of the first hydraulic stay bar 5 is connected with the bottom of the front surface of the base 2, the top of the first hydraulic stay bar 5 is connected with the bottom of the inlet platform 3, the bottom of the second hydraulic stay bar 6 is connected with the bottom of the back surface of the base 2, the top of the second hydraulic stay bar 6 is connected with the bottom of the outlet platform 4, one end of the inlet platform 3 is connected with the top of the front surface of the base 2 through a first hinge 9, one end of the outlet platform 4 is connected with the top of the, the entry platform 3 includes first bottom plate 11, first gyro wheel 12, side shield 13, the export platform 4 includes second bottom plate 14, second gyro wheel 15, the clean room 1 includes dust cover 16, preceding dust curtain 17, back dust curtain 18, guide roller 19, first side dust removal mechanism 20, second side dust removal mechanism 21, end dust removal mechanism 22, transport mechanism 23, baffle 24.

As shown in fig. 6 to 7, the first side dust removing mechanism 20 includes a first driving machine 25, a first driving turntable 26, a first driven turntable 27, a first belt 28, a first rotating shaft 29, a first upper sleeve 30, a first lower sleeve 31, a first brush 32, a first dust suction port 33, a first dust suction pipe 34, a slide rail 35, a slide block 36, a slide block back plate 37, a connecting plate 38, a connecting sleeve 39, a screw 40, a turntable 41, and a handle 42, the first upper sleeve 30 rotates together with the first rotating shaft 29 through a key, the first brush 32 is mounted outside the first upper sleeve 30, a first air hole 43 is formed in the outer wall of the first upper sleeve 30, the first air hole 43 is connected with an air passage inside the first rotating shaft 29, and the air passage is connected with a blower that can rotate forward and backward. The first brush 32 is detachably inserted into the first air hole 43, that is, the tail of the first brush 32 is provided with a plug (not shown) which can be inserted into the first air hole 43.

The first air hole 43 is used for inserting the first brush 32, that is, the installation position of the brush is adjustable, and the first air hole 43 can be inserted into different positions at will. On the other hand, the air is introduced through the inner pipeline, high-pressure air or negative-pressure air is blown in through the positive and negative rotation of the blower so as to blow dust or suck dust, and the air is matched with the first brush 32 to blow off the dust on the surface of the object. The first dust suction pipe 34 (the first dust suction port 33 functions to suck dust brushed off by the brush and dust blown off through the air holes on the surface of the object to be cleaned.

The slide rail back plate 37 is connected to the first lower sleeve 31, one side of the connecting plate 38 is connected to the slide rail back plate 37, the back of the slider 36 is connected to the connecting plate 38, the front of the slider 36 is placed on the slide rail 35, the slide rail 35 is connected to the housing of the base 2 through a fixing device, the other side of the connecting plate 38 is connected to the connecting sleeve 39, the first driving machine 25 is connected to the connecting sleeve 39, the screw 40 passes through the connecting sleeve 39, one end of the screw 40 is connected to the rotating disc 41, the handle 42 is installed on the rotating disc 41, internal threads matched with external threads of the screw 40 are arranged in the connecting sleeve 39, and by rotating the handle 42 clockwise or counterclockwise, the connecting sleeve 39 can be driven to move leftwards or rightwards along the screw 40, the first side dust removing mechanism 20 is driven to move leftwards or rightwards.

As shown in fig. 8 to 10, the second side dust removing mechanism 21 includes a second driving machine 44, a second driving turntable 45, a second driven turntable 46, a second belt 47, a second rotating shaft 48, a second upper sleeve 49, a second lower sleeve 50, a second brush 51, a second dust suction port 52, and a second dust suction pipe 53, wherein the second upper sleeve 49 rotates together with the second rotating shaft 48 through a key, the second brush 51 is mounted on the outer side of the second upper sleeve 49, and a second air hole 54 is formed in the outer wall of the second upper sleeve 49. The second air hole 54 is constructed and functions as the first side dust removing means 20.

As shown in fig. 8-10, the bottom dust removing mechanism 22 includes a third driving machine 56, a third driving turntable 57, a third driven turntable 58, a third belt 59, a third rotating shaft 60, a third brush 61, a third dust suction port 62, and a third dust suction pipe 63, and the third driving machine 56 is fixed on the combination board 55 through a frame 64. During operation, the test piece brushed by the first side dust removing mechanism 20 and the second side dust removing mechanism 21 is continuously transmitted to the bottom dust removing mechanism 22 by the transmission mechanism 23, and is continuously brushed, dust-absorbed or blown by the third brush 61, the third dust absorbing opening 62 and the third dust absorbing pipe 63.

As shown in fig. 8 to 10, the conveying mechanism 23 includes a fourth driving device 66, a gear box 67, a driving rotating shaft 68, a tensioning rotating shaft 69, a first driven rotating shaft 70, a second driven rotating shaft 71, a third driven rotating shaft 72, a fourth driven rotating shaft 73, and a conveying belt set 65, wherein one end of the driving rotating shaft 68, the tensioning rotating shaft 69, one end of the first driven rotating shaft 70, one end of the second driven rotating shaft 71, one end of the third driven rotating shaft 72, and one end of the fourth driven rotating shaft 73 are all mounted on the combination board 55. The conveyor belt group 65 includes a plurality of conveyor belts. The third dust suction pipe 63 is connected with the dust removal pipe 8, and the dust removal pipe 8 is externally connected with a positive and negative rotating blower which can rotate positively and negatively.

The invention can fully remove dust of dust-absorbing articles through the side brush and the bottom brush, and the dust-removing chamber can effectively block dust and prevent secondary pollution. The invention can also adjust the direct distance between the side dust removing brushes to adapt to different sizes of the objects to be removed. The invention has simple structure, powerful function and wide application range.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The working method of the dust removing equipment before the building material test comprises a dust removing chamber (1), a base (2), an inlet platform (3), an outlet platform (4), a first hydraulic stay bar (5) and a second hydraulic stay bar (6), wherein four universal wheels (7) are installed at four corners of the bottom of the base (2), a dust removing pipe (8) is installed on the side surface of the base (2), the bottom of the first hydraulic stay bar (5) is connected with the front bottom of the base (2), the top of the first hydraulic stay bar (5) is connected with the bottom of the inlet platform (3), the bottom of the second hydraulic stay bar (6) is connected with the back bottom of the base (2), the top of the second hydraulic stay bar (6) is connected with the bottom of the outlet platform (4), one end of the inlet platform (3) is connected with the front top of the base (2) through a first hinge (9), one end of the outlet platform (4) is connected with the top of the back of the base (2) through a second hinge (10), the inlet platform (3) comprises a first bottom plate (11), a first roller (12) and a side baffle (13), the outlet platform (4) comprises a second bottom plate (14) and a second roller (15), and the dust chamber (1) comprises a dust cover (16), a front dust curtain (17), a rear dust curtain (18), a guide roller (19), a first side dust removing mechanism (20), a second side dust removing mechanism (21), a bottom dust removing mechanism (22), a conveying mechanism (23) and a partition plate (24); the device is characterized in that during work, a test piece to be cleaned is placed on the inlet platform (3), the inlet platform (3) conveys the test piece into the dust removal chamber (1), and the first side dust removal mechanism (20) and the second side dust removal mechanism (21) brush dust on the surface of the test piece; after the surface dust brushing treatment is finished, the bottom dust removal mechanism continuously conveys the test piece to the outlet platform (4);

the first side dust removing mechanism (20) further comprises a first driving machine (25), a first driving rotary table (26), a first driven rotary table (27), a first belt (28), a first rotary shaft (29), a first upper sleeve (30), a first lower sleeve (31), a first brush (32), a first dust suction port (33), a first dust suction pipe (34), a sliding rail (35), a sliding block (36), a sliding block back plate (37), a connecting plate (38), a connecting sleeve (39), a screw rod (40), a rotary table (41) and a handle (42), wherein the first upper sleeve (30) rotates together with the first rotary shaft (29) in a key mode, the first brush (32) is installed on the outer side of the first upper sleeve (30), a first air hole (43) is formed in the outer wall of the first upper sleeve (30), and the first air hole (43) is connected with an air passage in the first rotary shaft (29), the air flue is connected with a blower capable of rotating forwards and backwards to form a suction or blowing function, a first brush (32) is detachably inserted into a first air hole (43), namely a plug capable of being inserted into the first air hole (43) is arranged at the tail part of the first brush (32), a sliding rail back plate (37) is connected onto a first lower sleeve (31), one side of a connecting plate (38) is connected onto the sliding rail back plate (37), the back part of a sliding block (36) is connected onto the connecting plate (38), the front surface of the sliding block (36) is placed onto a sliding rail (35), the sliding rail (35) is connected with the shell of the base (2) through a fixing device, the other side of the connecting plate (38) is connected onto the connecting sleeve (39), a first driving machine (25) is connected onto the connecting sleeve (39), and a screw rod (40) penetrates through the connecting sleeve (39), one end of the screw rod (40) is connected with the rotary table (41), the handle (42) is installed on the rotary table (41), an internal thread matched with the external thread of the screw rod (40) is arranged in the connecting sleeve (39), the connecting sleeve (39) can be driven to move leftwards or rightwards along the screw rod (40) by rotating the handle (42) clockwise or anticlockwise, the first side dust removal mechanism (20) is driven to move leftwards or rightwards, and the number of the first air holes (43) and the number of the first brushes (32) are adjusted according to the attachment degree of particles on the surface of a test piece to be cleaned during working;

if the attachment degree of the particles on the surface of the object is serious, all the first air holes (43) are used as sockets of the first brushes (32), and the number of the first brushes (32) is increased so as to increase the brushing effect on the surface of the object;

if the particle attachment degree is normal, half of the first air holes (43) are used as air blowing holes, and half of the first air holes (43) are used as sockets of the first brush (32);

if the surface of the test piece is smooth and the particles are rarely adhered, all the brush groups are disassembled, all the first air holes (43) are reserved as the air blowing function, and the dust blowing capacity is improved.

2. The working method according to claim 1, wherein the second side dust removing mechanism (21) comprises a second driving machine (44), a second driving rotary disk (45), a second driven rotary disk (46), a second belt (47), a second rotary shaft (48), a second upper sleeve (49), a second lower sleeve (50), a second brush (51), a second dust suction port (52) and a second dust suction pipe (53), the second upper sleeve (49) rotates together with the second rotary shaft (48) through a key form, the second brush (51) is installed outside the second upper sleeve (49), a second air hole (54) is formed in the outer wall of the second upper sleeve (49), the second air hole (54) is connected with an air passage inside the second rotary shaft (48), the air passage is connected with a blower capable of rotating forward and backward, the second brush (51) is detachably inserted into the second air hole (54), namely, the tail part of the second hairbrush (51) is provided with a plug which can be inserted into a second air hole (54), the second dust suction pipe (53) is connected with the second lower sleeve (50) through a fixer, and the number of the air blowing holes and the second hairbrush (51) is adjusted according to the attachment degree of particles on the surface of a test sample to be cleaned during working;

if the attachment degree of the particles on the surface of the object is serious, all the second air holes (54) are used as sockets of the second brushes (51), and the number of the second brushes (51) is increased so as to increase the brushing effect on the surface of the object;

if the particle attachment degree is normal, half of the second air holes (54) are used as air blowing holes, and half of the second air holes (54) are used as sockets of the second brush (51);

if the surface of the test piece is smooth and the particles are rarely adhered, all the brush groups are disassembled, all the second air holes (54) are reserved as air blowing functions, and the dust blowing capacity is improved.