CN115350972A

CN115350972A - Automatic cleaning machine for fire mask

Info

Publication number: CN115350972A
Application number: CN202211000666.8A
Authority: CN
Inventors: 翟华; 邵耀民; 丁煦; 吴玉程; 周辉; 张一琦; 王松
Original assignee: Hefei University of Technology
Current assignee: Hefei University of Technology
Priority date: 2022-08-19
Filing date: 2022-08-19
Publication date: 2022-11-18

Abstract

The invention discloses an automatic cleaning machine for a fire mask, which comprises a conveying mechanism and a cleaning mechanism positioned at one end of the conveying mechanism, wherein the cleaning mechanism comprises an upper cleaning platform and a lower cleaning platform, a lower central plate is fixed at the top of the lower cleaning platform, lower connecting plates are respectively and rotatably arranged on two sides of the lower central plate, the bottom of each lower connecting plate is hinged with a hydraulic rod on the lower cleaning platform through a connecting rod, and an upper central plate is arranged at the bottom of the upper cleaning platform. The conveying device is divided into two sections, the two sections of conveying belts are respectively used for placing the plate feet of the fire masks, the conveying belts are provided with the raised lines for separating the fire masks, and collision among a plurality of fire masks in the conveying process is effectively prevented.

Description

Automatic cleaning machine for fire mask

Technical Field

The invention relates to the field of fire mask production, in particular to an automatic cleaning machine for a fire mask.

Background

With the propaganda and popularization of fire safety knowledge, more and more units and families begin to be equipped with fire-fighting equipment, and fire-fighting masks become common self-rescue devices. In the structure of the fire mask, the production of the fire mask for providing the visual field is a key link, the cleanliness of the fire mask is an important index for evaluating the quality of the fire mask, the fire mask with higher cleanliness can provide a better visual field in the use process, and meanwhile, the mask is the place where dirt is most easily accumulated in the whole structure and can be recycled for cleaning again to achieve the purpose of secondary utilization.

The existing organic glass cleaning and air drying equipment is mostly plane cleaning and air drying, the glass surface can not be uniformly and consistently cleaned and dried when the organic glass is cleaned by a curved surface, and the angle and the position of a nozzle and the air outlet direction of an air knife during drying are difficult to adjust when the organic glass faces different curvatures, so that certain technical defects exist, and the improvement is needed.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the automatic cleaning machine for the fire mask, which can deal with glass with different radians by adjusting the distance between the cleaning mechanism and the drying mechanism and the glass, so that the surface of the glass can be uniformly air-dried, the utilization rate of energy can be improved, and the problems in the background art are solved.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a fire control face guard's self-cleaning machine, includes conveying mechanism, still includes:

the cleaning mechanism is positioned at one end of the conveying mechanism and comprises an upper cleaning platform and a lower cleaning platform, a lower central plate is fixed at the top of the lower cleaning platform, lower connecting plates are rotatably mounted on two sides of the lower central plate respectively, the bottom of each lower connecting plate is hinged to a hydraulic rod on the lower cleaning platform through a connecting rod, an upper central plate is arranged at the bottom of the upper cleaning platform, upper connecting plates are rotatably connected to two sides of the upper central plate respectively, and the top of each upper connecting plate is hinged to a hydraulic rod on the upper cleaning platform through a connecting rod;

brushes, scrapers and nozzles connected with respective inner cavities are arranged on the tops of the lower central plate and the lower connecting plate and the bottom cambered surfaces of the upper central plate and the upper connecting plate, and water conveying pipes communicated with the respective inner cavities are arranged on the lower central plate, the lower connecting plate, the upper central plate and the upper connecting plate;

the blow-drying mechanism is positioned at the other end of the conveying mechanism and comprises an air pipe frame and two air frames connected through a lifting device, an air channel unit is arranged on each air frame, and an inlet of each air channel unit is connected with an air conveying pipe on the air pipe frame through a bamboo joint pipe.

Further inject, the wind frame includes two curved ring framves, and the both ends of two ring framves are fixed through the fixed plate respectively, and the wind channel unit sets up along the ring frame equidistance.

Further inject, the wind channel unit includes front base plate, and the rear base plate of bamboo joint pipe threaded connection, the pipeline on the front base plate is connected with the air knife through holding screw, the recess on front base plate and the rear base plate respectively with the ring frame block, and front base plate passes through the bolt and is connected with the rear base plate through the nut, the pipeline butt joint intercommunication of bamboo joint pipe and front base plate.

Further inject, conveying mechanism adopts two conveyer belts, and every conveyer belt surface evenly distributed has the sand grip, and the support both sides of conveyer belt are equipped with the baffle.

Further limiting, additional plates are arranged between the bottom surfaces of the upper central plate and the upper connecting plate and between the lower central plate and the upper surface of the lower connecting plate, and scrapers and brushes are arranged on the surfaces of the additional plates.

Further, the scraper, the nozzle and the brush are distributed from inside to outside in sequence.

Further inject, elevating gear includes elevating system and the ascending and descending mechanism down, it includes two dust proof boxes to go up elevating system, equal vertical lead screw one and the feed slide of being equipped with in every dust proof box, the elevating block of spiro union slides with the feed slide and cup joints on the lead screw one, connect through the overhead gage between two elevating blocks, all be equipped with on every elevating block with wind pipe frame top ring frame both ends fixed plate pass through bolted connection's curb plate, connect through the drive belt between the synchronizing wheel on two lead screws one, be equipped with on one of them lead screw one and follow the driving wheel, this lead screw one is fixed with motor one in the dust proof box, the action wheel on motor one output shaft passes through the drive belt and is connected from the driving wheel.

Further inject, lower elevating system includes bottom plate and shearing platform, and the fixed plate at tuber pipe frame bottom ring frame both ends passes through the bolt and is connected with shearing platform, the top of bottom plate and shearing platform's bottom one end all are equipped with linear guide, and the cover is equipped with the slider on the linear guide, and it has the bracing piece to articulate respectively on two sliders, and the middle part of two bracing pieces is articulated, and the other end of two bracing pieces is articulated with bottom plate and shearing platform respectively, is fixed with motor two on the bottom plate, and the spiro union has even board on the lead screw two of two output shafts of motor, even the board is fixed with the slider on the bottom plate.

The invention has the following beneficial effects:

the conveying device is divided into two sections, the two sections of conveying belts are respectively used for placing the plate feet of the fire masks, and the conveying belts are provided with the raised lines for separating the fire masks, so that collision among a plurality of fire masks in the conveying process is effectively prevented.

When the cleaning device is used, the cleaning device can be attached to the surface of glass by changing the radian in the cleaning mechanism, and is more attached to the radian of the surface of the glass, so that dust on the surface of the glass can be more effectively erased;

the invention adopts the modes of scraping and wiping to clean the surface of the glass, can remove floating dust on the surface of the glass and attach relatively compact dirt, and has good cleaning effect;

the two air racks can respectively swing up and down, so that the distance between the air duct unit and the glass can be adjusted, the blow-drying mechanism can deal with the glass with different radians, the surface of the glass can be uniformly air-dried, and the utilization rate of energy can be improved.

The lifting mechanism drives the lifting baffle to move up and down through the first motor, the side plate is connected with the ring frame, and then the air frame on the upper portion is driven to move up and down.

Drawings

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

FIG. 2 is a schematic view of a blow drying mechanism according to the present invention;

FIG. 3 is a schematic view of the lifting mechanism of the present invention;

FIG. 4 is an internal view of the lift mechanism of the present invention;

FIG. 5 is a schematic view of the lower lift mechanism of the present invention;

FIG. 6 is a perspective view of the cleaning mechanism of the present invention;

FIG. 7 is a front view of the cleaning mechanism of the present invention;

FIG. 8 is an enlarged view of A of FIG. 7 according to the present invention;

FIG. 9 is a schematic view of a plate according to the present invention;

fig. 10 is a schematic view of an air duct unit according to the present invention.

In the figure: 1. a conveying mechanism;

2. a blow-drying mechanism; 201. an air pipe frame; 202. a wind delivery pipe; 203. a ring frame; 204. an air duct unit; 2041. an air knife; 2042. a set screw; 2043. a front substrate; 2044. a rear substrate; 2045. a bamboo joint pipe; 2046. a bolt; 2047. a nut; 205. a fixing plate;

3. an ascending and descending mechanism; 31. a dust-proof box; 32. a side plate; 33. a lifting baffle plate; 34. a transmission belt; 35. a slide bar; 36. a first motor; 37. a first lead screw; 38. a lifting block;

4. a cleaning mechanism; 401. a lower cleaning platform; 402. an upper cleaning platform; 403. a support frame; 404. a lower center plate; 405. a lower connecting plate; 406. a squeegee; 407. an upper connecting plate; 408. an upper center plate; 409. a brush; 410. a nozzle; 411. a hydraulic lever; 412. a water delivery pipe; 413. a rotating shaft; 414. adding a plate; 415. a convex edge;

5. a lower lifting mechanism; 51. a base plate; 52. a linear guide rail; 53. a slider; 54. a second screw rod; 55. a second motor; 56. connecting plates; 57. a shearing platform; 58. a support rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1-10, the present invention provides a technical solution: an automatic cleaning machine for fire masks comprises a conveying mechanism 1, wherein the conveying mechanism 1 adopts two conveying belts which are arranged in parallel, two sections of conveying belts are respectively used for placing plate feet of a fire mask, raised lines used for separating the fire masks are arranged on the conveying belts, collision among a plurality of fire masks in the conveying process is effectively prevented, anti-falling baffles are arranged on two sides of a support of each conveying belt, when the fire masks are cleaned, upward bulges of the masks are placed on the conveying belts, two side feet of the masks respectively fall on the conveying belts on two sides, raised lines are arranged among every two masks, and if the moving speed of the masks is not uniform, the masks impact on the raised lines but not on adjacent masks;

see fig. 1, 6, 7; one end of the conveying mechanism 1 is provided with a cleaning mechanism 4, the cleaning mechanism 4 comprises an upper cleaning platform 402 and a lower cleaning platform 401, the top of the lower cleaning platform 401 is fixed with a lower central plate 404 through a support 403, two sides of the lower central plate 404 are respectively provided with a lower connecting plate 405 through rotating shafts 413, the bottom of the lower connecting plate 405 is hinged with a hydraulic rod 411 on the lower cleaning platform 401 through a connecting rod, the bottom of the upper cleaning platform 402 is fixed with an upper central plate 408 through the support 403, two sides of the upper central plate 408 are respectively connected with upper connecting plates 407 through the rotating shafts 413, the top of the upper connecting plates 407 is hinged with the hydraulic rod 411 on the upper cleaning platform 402 through a connecting rod, and the radian of the cleaning mechanism 4 can be changed through the hydraulic rod 411 so as to adapt to fire masks with different curved surfaces;

scrapers 406, nozzles 410 connected with respective inner cavities and brushes 409 are sequentially distributed on the tops of the lower central plate 404 and the lower connecting plate 405 and on the bottom cambered surfaces of the upper central plate 408 and the upper connecting plate 407 from the inner side of the conveying mechanism 1 to the outer side, the advancing direction of the transmission belt 34 is the direction from the cleaning mechanism 4 to the drying mechanism 2, the outlet directions of the nozzles 410 are respectively vertical to the arc surfaces, and water conveying pipes 412 communicated with the respective inner cavities are respectively arranged on the lower central plate 404, the lower connecting plate 405, the upper central plate 408 and the upper connecting plate 407;

see fig. 8 and 9; additional plates 414 are arranged between the bottom surfaces of the upper central plate 408 and the upper connecting plate 407 and between the lower central plate 404 and the upper surface of the lower connecting plate 405, wherein the additional plates 414 are arranged on the upper connecting plate 407 and the lower connecting plate 405 through pins, one side of the additional plates 414 is provided with a convex edge 415 corresponding to the side grooves of the upper central plate 408 and the lower central plate 404 for positioning the additional plates 414, and the surface of the additional plates 414 is provided with a scraper 406 and a brush 409 to fill a gap generated when the upper connecting plate 407 and the lower connecting plate 405 rotate so as to completely clean the surface;

referring to fig. 1 and 2, a drying mechanism 2 is arranged at the other end of the conveying mechanism 1, the drying mechanism 2 comprises an air pipe frame 201 and two air frames connected through a lifting device, each air frame is provided with an air duct unit 204, and an inlet of the air duct unit 204 is connected with an air conveying pipe 202 on the air pipe frame 201 through a bamboo joint pipe 2045.

The air frame comprises two arc-shaped ring frames 203, each ring frame 203 consists of two concentric semicircular rings with different diameters, two ends of each ring frame 203 are fixed through fixing plates 205, the air duct units 204 are arranged at equal intervals along the ring frames 203, the positions of the air duct units 204 are fixed by the arrangement of the ring frames 203, and meanwhile, the air duct units 204 can move on the ring frames 203 due to the structure of the ring frames 203, so that the distribution of the air knives 2041 is more reasonable and is easy to adjust;

referring to fig. 10; the air duct unit 204 includes a front substrate 2043, a rear substrate 2044 in threaded connection with the bamboo joint pipe 2045, a duct on the front substrate 2043 is connected with an air knife 2041 through a set screw 2042, grooves on the front substrate 2043 and the rear substrate 2044 are respectively clamped with the ring frame 203, the front substrate 2043 is connected with the rear substrate 2044 through a bolt 2046 and a nut 2047, the bamboo joint pipe 2045 is in butt joint communication with the duct of the front substrate 2043, the front substrate 2043 and the rear substrate 2044 are mutually embedded and fixed on the ring frame 203, the air knife 2041 is connected and clamped through the bolt 2046 and the nut 2047, the installation of the air knife 2041 is realized through the set screw 2042, the direction of an air outlet of the air knife 2041 can be easily adjusted, and the air knives 2041 with different air outlet apertures can be rapidly replaced.

Refer to fig. 1, 3, 4; the lifting device comprises a lower lifting mechanism 5 and an upper lifting mechanism 3, the upper lifting mechanism 3 comprises two dust-proof boxes 31, a first lead screw 37 and a sliding rod 35 are vertically arranged in each dust-proof box 31, lifting blocks 38 screwed on the first lead screw 37 are slidably sleeved with the sliding rod 35, the two lifting blocks 38 are connected through lifting baffles 33, each lifting block 38 is provided with a side plate 32 connected with fixing plates 205 at two ends of a top ring frame 203 of the air duct frame 201 through bolts 2046, synchronizing wheels on the two first lead screws 37 are connected through a transmission belt 34, the transmission belt 34 is matched with the synchronizing wheels to enable the two first lead screws 37 to move synchronously, a driven wheel is arranged on one lead screw 37, a first motor 36 is fixed in the dust-proof box 31 where the first lead screw 37 is located, a driving wheel on an output shaft of the first motor 36 is connected with the driven wheel through the transmission belt 34, the first motor 36 drives the first lead screw 37 to enable the lifting baffles 33 to move up and down to achieve lifting of the upper air duct unit 204, the first motor 36 and the first lead screw 37 to move up and the two air duct units 204 without moving up and down through the transmission belt, the phenomenon that the two side plates 34 move synchronously.

Referring to fig. 5; the lower lifting mechanism 5 comprises a bottom plate 51 and a shearing platform 57, wherein the shearing platform 57 is two and is distributed on two sides above the bottom plate 51, fixing plates 205 at two ends of a ring frame 203 at the bottom of the air duct frame 201 are connected with the shearing platform 57 through bolts 2046, linear guide rails 52 are arranged at the top of the bottom plate 51 and one end of the bottom of the shearing platform 57, sliding blocks 53 are sleeved on the linear guide rails 52, supporting rods 58 are hinged on the two sliding blocks 53 respectively, the middle parts of the two supporting rods 58 are hinged, the other ends of the two supporting rods 58 are hinged with the bottom plate 51 and the shearing platform 57 respectively, a motor two 55 is fixed on the bottom plate 51, a connecting plate 56 is screwed on a screw rod two 54 of an output shaft of the motor two 55, the connecting plate 56 is fixed with the sliding blocks 53 on the bottom plate 51, the motor two 55 drives the screw rod two 54 to rotate so as to push the sliding blocks 53 to move along the linear guide rails 52, the shearing platform 57 can be lifted or descended along with the opening and closing of the supporting rods 58, and further driving a lower air duct unit 204 installed on the shearing platform 57 to be lifted and adjusted.

The detailed cleaning process comprises the following steps: the fire mask is placed at one end, located at the cleaning mechanism 4, of the conveying mechanism 1 and separated by the protruding strips, enters the cleaning mechanism 4 through the conveying mechanism 1, is conveyed to the cleaning agent sprayed from the nozzle 410 through the brush 409 and the water conveying pipe 412 after being cleaned, excess moisture is scraped by the scraper 406, the cleaned fire mask is blown to the drying mechanism 2 along with the continuous advancing of the conveying belt, and the residual moisture on the surface of the fire mask is blown to the drying mechanism through high-pressure air of the air knife 2041.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a fire mask's self-cleaning machine, includes conveying mechanism (1), its characterized in that still includes:

the cleaning mechanism (4) is positioned at one end of the conveying mechanism (1), the cleaning mechanism (4) comprises an upper cleaning platform (402) and a lower cleaning platform (401), a lower central plate (404) is fixed at the top of the lower cleaning platform (401), lower connecting plates (405) are respectively rotatably installed on two sides of the lower central plate (404), the bottom of each lower connecting plate (405) is hinged to a hydraulic rod (411) on the lower cleaning platform (401) through a connecting rod, an upper central plate (408) is arranged at the bottom of the upper cleaning platform (402), upper connecting plates (407) are respectively rotatably connected to two sides of the upper central plate (408), and the top of each upper connecting plate (407) is hinged to a hydraulic rod (411) on the upper cleaning platform (402) through a connecting rod;

brushes (409), scrapers (406) and nozzles (410) connected with respective inner cavities are arranged on the tops of the lower central plate (404) and the lower connecting plate (405) and the bottom cambered surfaces of the upper central plate (408) and the upper connecting plate (407), and water conveying pipes (412) communicated with the respective inner cavities are arranged on the lower central plate (404), the lower connecting plate (405), the upper central plate (408) and the upper connecting plate (407);

the blow-drying mechanism (2) is located at the other end of the conveying mechanism (1), the blow-drying mechanism (2) comprises an air pipe frame (201) and two air frames connected through a lifting device, an air channel unit (204) is arranged on each air frame, and an inlet of the air channel unit (204) is connected with an air conveying pipe (202) on the air pipe frame (201) through a bamboo joint pipe (2045).

2. The automatic cleaning machine for a fire fighting mask as recited in claim 1, characterized in that: the air frame comprises two arc-shaped annular frames (203), two ends of each annular frame (203) are fixed through fixing plates (205), and the air duct units (204) are arranged at equal intervals along the annular frames (203).

3. The automatic cleaning machine for a fire fighting mask as defined in claim 2, wherein: wind channel unit (204) include front substrate (2043), back base plate (2044) with bamboo joint pipe (2045) threaded connection, the pipeline on front substrate (2043) is connected with wind sword (2041) through holding screw (2042), recess on front substrate (2043) and the back base plate (2044) respectively with ring frame (203) block, and front substrate (2043) and back base plate (2044) pass through bolt (2046) and nut (2047) and are connected, the pipeline butt joint intercommunication of bamboo joint pipe (2045) and front substrate (2043).

4. The automatic cleaning machine for fire masks according to claim 3, characterized in that: conveying mechanism (1) adopts two conveyer belts, and every conveyer belt surface evenly distributed has the sand grip, and the support both sides of conveyer belt are equipped with the baffle.

5. The automatic cleaning machine for fire masks according to claim 4, characterized in that: and an additional plate (414) is arranged between the bottom surfaces of the upper central plate (408) and the upper connecting plate (407) and between the lower central plate (404) and the upper surface of the lower connecting plate (405), and a scraper (406) and a brush (409) are arranged on the surface of the additional plate (414).

6. The automatic cleaning machine for fire masks according to claim 5, characterized in that: the scraper blade (406), the nozzle (410) and the hairbrush (409) are distributed from inside to outside in sequence.

7. An automatic cleaning machine for fire fighting masks according to any one of claims 2 to 6, characterized in that: the lifting device comprises a lower lifting mechanism (5) and an upper lifting mechanism (3), the upper lifting mechanism (3) comprises two dustproof boxes (31), a first lead screw (37) and a sliding rod (35) are vertically arranged in each dustproof box (31), a lifting block (38) which is screwed on the first lead screw (37) is sleeved with the sliding rod (35) in a sliding mode, the two lifting blocks (38) are connected through a lifting baffle (33), each lifting block (38) is provided with a side plate (32) which is connected with a top ring frame (203) of an air pipe frame (201) through a bolt (2046) and fixed plates (205) at two ends, synchronizing wheels on the two first lead screws (37) are connected through a transmission belt (34), a driven wheel is arranged on one lead screw (37), a first motor (36) is fixed in the dustproof box (31) where the first lead screw (37) is located, and an output shaft of the first motor (36) is connected with the driven wheel through the transmission belt (34).

8. The automatic cleaning machine for fire masks according to claim 7, characterized in that: lower elevating system (5) are including bottom plate (51) and shearing platform (57), and fixed plate (205) at tuber pipe frame (201) bottom ring frame (203) both ends are connected with shearing platform (57) through bolt (2046), the top of bottom plate (51) and the bottom one end of shearing platform (57) all are equipped with linear guide (52), and the cover is equipped with slider (53) on linear guide (52), and it has bracing piece (58) to articulate respectively on two slider (53), and the middle part of two bracing pieces (58) is articulated, and the other end of two bracing pieces (58) is articulated with bottom plate (51) and shearing platform (57) respectively, is fixed with motor two (55) on bottom plate (51), and the spiro union has even board (56) on lead screw two (54) of motor two (55) output shaft, even board (56) are fixed with slider (53) on bottom plate (51).