CN113798223A

CN113798223A - Big data information acquisition monitoring device

Info

Publication number: CN113798223A
Application number: CN202111147609.8A
Authority: CN
Inventors: 朱晓玲
Original assignee: Individual
Current assignee: Lianyang Guorong Beijing Technology Co ltd
Priority date: 2021-09-29
Filing date: 2021-09-29
Publication date: 2021-12-17
Anticipated expiration: 2041-09-29
Also published as: CN113798223B

Abstract

The invention discloses a big data information acquisition monitoring device, which relates to the technical field of big data information and comprises a camera, wherein a lens is fixedly arranged at the right end of the camera, a shielding cover is fixedly arranged at the top of the camera, a movable cleaning mechanism is rotatably arranged outside the camera, a plurality of extrusion type trigger mechanisms are arranged on the movable cleaning mechanism, a pulling type trigger mechanism is arranged at the left side of the movable cleaning mechanism, the pulling type trigger mechanism is fixedly arranged outside the camera, a driving mechanism is fixedly arranged at the bottom of the camera, the driving mechanism is in transmission connection with the movable cleaning mechanism, and a liquid supply mechanism is fixedly arranged at the top of the camera. The cleaning device can effectively clean the lens, can not block the lens when the camera normally works, further ensures the imaging integrity, and can better clean dust on the surface of the lens by matching with a cleaning solution and a reverse scraping mode.

Description

Big data information acquisition monitoring device

Technical Field

The invention relates to the technical field of big data information, in particular to a big data information acquisition monitoring device.

Background

When the big data is used for information acquisition, video information acquisition is often carried out by video monitoring and shooting, and a video shooting device is needed. The video shooting device used at present generally comprises a front-end camera, a transmission cable and a video monitoring platform, wherein the camera can be divided into a network digital camera and an analog camera which are used as an acquisition unit of a front-end video image signal; however, the existing camera is generally fixed to perform video surveillance shooting on one place, and if the monitored direction and angle need to be adjusted, the camera needs to be driven by at least two independent power elements to adjust the position.

The invention patent of patent application publication No. CN 110285300B discloses a big data information acquisition monitoring device, wherein a double-end motor is coaxially connected with an upright post through a ratchet-pawl mechanism, the upright post is provided with two spiral grooves with opposite rotation directions, the outer surface of the upright post is sleeved with a sliding ring, the inner side of the sliding ring is rotatably provided with a sliding block, the sliding block slides along the spiral grooves, the outer side of the sliding ring is hinged with a fixed seat through a connecting rod, and the fixed seat is provided with a camera; a rotating shaft below the double-end motor is coaxially and fixedly connected with a pawl disc of the second ratchet and pawl mechanism; the double-rack mechanism is horizontally installed on the installation plate in a sliding mode, a ratchet wheel of the second ratchet wheel and pawl mechanism is located between the two racks, and a gear meshed with the racks is arranged on the outer side of the ratchet wheel; the double-rack mechanism is connected with the supporting column through a telescopic rod; the escape direction of the first ratchet-pawl mechanism is opposite to that of the second ratchet-pawl mechanism. The invention improves the collection range of the camera and provides more video information for the information collection of big data.

However, the above-mentioned device still has some disadvantages in actual use, and it is obvious that the camera needs to be cleaned regularly in order to maintain high definition of image during shooting, but because the above-mentioned device lacks an automatic cleaning mechanism, the camera can only be cleaned manually, and because the camera is generally installed at a high position, the camera is inconvenient in cleaning.

To the circumstances, technical personnel in the field think of setting up automatic clearance mechanism on the camera to in order to realize the automatic clearance of the regular period of camera, but the discovery after the technical personnel actually set up, the clearance part among the automatic clearance mechanism can continue to cause the barrier to the camera, and then influences its formation of image integrality, adopts the clearance mode of scraping formula alone simultaneously, does not cooperate the washing liquid to use jointly, also can't be better clears up the dust of camera lens department.

Therefore, it is necessary to invent a big data information collecting and monitoring device to solve the above problems.

Disclosure of Invention

The invention aims to provide a big data information acquisition monitoring device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a big data information acquisition monitoring device comprises a camera, wherein a lens is fixedly arranged at the right end of the camera, a shielding cover is fixedly arranged at the top of the camera, a movable cleaning mechanism is rotatably arranged at the outer side of the camera, a plurality of extrusion type trigger mechanisms are arranged on the movable cleaning mechanism, a pulling type trigger mechanism is arranged at the left side of the movable cleaning mechanism, the pulling type trigger mechanism is fixedly arranged at the outer side of the camera, a driving mechanism is fixedly arranged at the bottom of the camera and is in transmission connection with the movable cleaning mechanism, a liquid supply mechanism is fixedly arranged at the top of the camera, a driving motor in the driving mechanism drives a toothed fan to rotate through a connecting disc, the toothed fan drives a gear ring in the movable cleaning mechanism to rotate, so that a mounting frame drives a hollow plate and a cotton scraping strip to rotate, and in the process of rotating the gear ring and the hollow plate, first stretch cord draws with the second stretch cord to ring gear and hollow plate respectively, the hollow plate is changed into vertical state by the horizontal condition this moment, and drive the cotton scraping strip and laminate in the lens outside, when the cotton scraping strip laminates in the lens outside simultaneously, the lens extrudees the slip post through cotton pad, the washing liquid of the inside washing liquid holding vessel of confession liquid mechanism passes through the feed pipe and inputs to inside the hollow plate, then flow to the cotton scraping strip through the worker shape passageway on, and then cooperate the cotton scraping strip to clean the lens in follow-up cotton scraping strip rotatory process, when the sector is rotatory to the vacancy position, the sector no longer meshes with the ring gear this moment, draw down at first stretch cord and second stretch cord, ring gear and hollow plate reset gradually, the hollow plate is at the in-process that the drive cotton scraping strip resets simultaneously, accomplish the reverse scraping to the lens.

Preferably, movable clean mechanism includes ring gear, mounting bracket, hollow slab, cotton scraping strip, rotation axis and torsional spring, the ring gear rotates through the bearing and cup joints and set up in the camera outside, the mounting bracket is fixed to be set up in mounting bracket right side top, hollow slab is located the mounting bracket inboard, the cotton scraping strip bonds and sets up in hollow slab bottom, the rotation axis all is provided with two, two with the torsional spring the rotation axis is fixed respectively and sets up in hollow slab front and the back, and two the rotation axis all rotates through bearing and mounting bracket to be connected, two the torsional spring cup joints respectively and sets up in two rotation axis outsides, and its one end and hollow slab fixed connection and the other end and mounting bracket fixed connection.

Preferably, extrusion formula trigger mechanism is including sliding column, spring, cotton pad and worker's shape passageway, run through hollow slab and cotton scraping strip and with hollow slab sliding connection in the vertical direction of slip post, spring fixed connection is in the slip capital portion, and its and hollow slab inner wall fixed connection, the bonding of cotton pad sets up in the slip column bottom, the worker's shape passageway is seted up inside the slip column.

Preferably, drag formula trigger mechanism of dragging includes solid fixed ring, first stretch cord, fixed block and second stretch cord, gu fixed ring fixed cover connects to be set up in the camera outside, first stretch cord is provided with a plurality ofly, and is a plurality of the even fixed connection of first stretch cord is between ring gear and solid fixed ring, the fixed block is fixed to be set up in solid fixed ring top, second stretch cord fixed connection is in the fixed block right side, and its right-hand member and hollow plate bottom left side fixed connection.

Preferably, actuating mechanism includes driving motor, connection pad and sector, driving motor is fixed to be set up in the camera bottom, the connection pad is fixed to be set up in driving motor's output shaft tip, the sector is fixed to be cup jointed and is set up in the connection pad outside, and sector and gear ring meshing.

Preferably, the confession liquid mechanism includes washing liquid storage jar and feed pipe, washing liquid storage jar is fixed to be set up in the camera top, the cover is fixed to be cup jointed and is set up in the washing liquid storage jar outside, feed pipe fixed connection is in washing liquid storage jar right side bottom, and its right-hand member is fixed to run through hollow core plate and extend to hollow core plate inside.

The invention has the technical effects and advantages that:

the invention is provided with the movable cleaning mechanism, the extrusion type triggering mechanism, the drawing type triggering mechanism, the driving mechanism and the liquid supply mechanism, so as to be convenient for continuously driving the movable cleaning mechanism along with the driving mechanism, further to ensure that a hollow plate in the movable cleaning mechanism is changed from a state of being vertical to the lens to a state of being attached to the outer side of the lens, simultaneously to clean the lens under the driving of the driving mechanism, in addition, the liquid supply mechanism supplies cleaning liquid to the movable cleaning mechanism, when a cotton scraping strip in the movable cleaning mechanism is attached to the outer side of the lens, the output of the cleaning liquid is realized by using the extrusion type triggering mechanism, meanwhile, when the driving mechanism does not drive the movable cleaning mechanism any more, the drawing type triggering mechanism can be used for driving the movable cleaning mechanism to reset, further realizing reverse scraping, compared with the same type device in the prior art, the cleaning device can effectively clean the lens, can not block the lens when the camera normally works, further ensures the imaging integrity, and can better clean dust on the surface of the lens by matching with a cleaning solution and a reverse scraping mode.

Drawings

Fig. 1 is a schematic overall front view structure of the present invention.

Fig. 2 is an overall front sectional structural view of the present invention.

Fig. 3 is a front cross-sectional structural schematic view of the movable cleaning mechanism and the pull trigger mechanism of the present invention.

Fig. 4 is a front cross-sectional structural schematic view of the squeeze trigger mechanism of the present invention.

FIG. 5 is a schematic top view of the movable cleaning mechanism of the present invention.

FIG. 6 is a side view of the driving mechanism of the present invention.

In the figure: 1. a camera; 2. a lens; 3. a movable cleaning mechanism; 31. a gear ring; 32. a mounting frame; 33. a hollow slab; 34. cotton scraping strips; 35. a rotating shaft; 36. a torsion spring; 4. an extrusion type trigger mechanism; 41. a sliding post; 42. a spring; 43. a cotton pad; 44. an I-shaped channel; 5. a pull-type trigger mechanism; 51. a fixing ring; 52. a first elastic cord; 53. a fixed block; 54. a second elastic cord; 6. a drive mechanism; 61. a drive motor; 62. a connecting disc; 63. a toothed fan; 7. a liquid supply mechanism; 71. a cleaning fluid storage tank; 72. a liquid supply tube; 8. a shield cover.

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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a big data information acquisition monitoring device as shown in figures 1-6, which comprises a camera 1, wherein a lens 2 is fixedly arranged at the right end of the camera 1, a shielding cover 8 is fixedly arranged at the top of the camera 1, a movable cleaning mechanism 3 is rotatably arranged at the outer side of the camera 1, a plurality of extrusion type trigger mechanisms 4 are arranged on the movable cleaning mechanism 3, a drawing type trigger mechanism 5 is arranged at the left side of the movable cleaning mechanism 3, the drawing type trigger mechanism 5 is fixedly arranged at the outer side of the camera 1, a driving mechanism 6 is fixedly arranged at the bottom of the camera 1, the driving mechanism 6 is in transmission connection with the movable cleaning mechanism 3, a liquid supply mechanism 7 is fixedly arranged at the top of the camera 1, a driving motor 61 in the driving mechanism 6 drives a toothed fan 63 to rotate through a connecting disc 62, the toothed fan 63 drives a gear ring 31 in the movable cleaning mechanism 3 to rotate, and then the mounting frame 32 drives the hollow plate 33 and the cotton scraping bar 34 to rotate, in the process of rotating the gear ring 31 and the hollow plate 33, the first elastic rope 52 and the second elastic rope 54 respectively drag the gear ring 31 and the hollow plate 33, at this time, the hollow plate 33 is changed from a horizontal state to a vertical state, and drives the cotton scraping bar 34 to be attached to the outer side of the lens 2, and at the same time, when the cotton scraping bar 34 is attached to the outer side of the lens 2, the lens 2 extrudes the sliding column 41 through the cotton pad 43, the cleaning liquid in the cleaning liquid storage tank 71 in the liquid supply mechanism 7 is input into the hollow plate 33 through the liquid supply pipe 72, and then flows onto the cotton scraping bar 34 through the i-shaped channel 44, and further cooperates with the cotton scraping bar 34 to clean the lens 2 in the subsequent rotation process of the cotton scraping bar 34, when the sector 63 rotates to an empty position, the sector 63 is no longer meshed with the gear ring 31, under the drag of the first elastic rope 52 and the second elastic rope 54, the gear ring 31 and the hollow plate 33 are gradually reset, and meanwhile, the hollow plate 33 drives the cotton scraping strips 34 to reset to complete reverse scraping of the lens 2.

As shown in fig. 3, the movable cleaning mechanism 3 includes a gear ring 31, a mounting frame 32, a hollow plate 33, a cotton wiper strip 34, a rotary shaft 35, and a torsion spring 36.

More specifically, the gear ring 31 is rotatably sleeved and arranged outside the camera 1 through a bearing, the mounting frame 32 is fixedly arranged at the top of the right side of the mounting frame 32, the hollow plate 33 is positioned inside the mounting frame 32, the cotton scraping strips 34 are adhered and arranged at the bottom of the hollow plate 33, two rotating shafts 35 and two torsional springs 36 are arranged, two rotating shafts 35 are respectively fixedly arranged at the front and the back of the hollow plate 33, two rotating shafts 35 are respectively rotatably connected with the mounting frame 32 through bearings, two torsional springs 36 are respectively sleeved and arranged outside two rotating shafts 35, one end of each torsional spring is fixedly connected with the hollow plate 33, the other end of each torsional spring is fixedly connected with the mounting frame 32, so that the mounting frame 32 can drive the hollow plate 33 to rotate with the cotton scraping strips 34 when the gear ring 31 rotates, and in the rotating process of the gear ring 31 and the hollow plate 33, the first elastic rope 52 and the second elastic rope 54 in the pull type trigger mechanism 5 respectively pull the gear ring 31 and the hollow plate 33, at this time, the hollow plate 33 is changed from the horizontal state to the vertical state, and drives the cotton scraping strip 34 to be attached to the outer side of the lens 2.

As shown in fig. 4, the squeeze trigger 4 includes a slide post 41, a spring 42, a cotton pad 43, and an i-shaped channel 44.

More specifically, the vertical direction of slip post 41 is gone up and is run through hollow slab 33 and cotton scraping bar 34 and with hollow slab 33 sliding connection, spring 42 fixed connection is in the top of slip post 41, and its and hollow slab 33 inner wall fixed connection, cotton pad 43 bonds and sets up in slip post 41 bottom, worker's shape passageway 44 is seted up inside slip post 41 to when cotton scraping bar 34 is laminated in the lens 2 outside, lens 2 extrudees slip post 41 through cotton pad 43, and the inside washing liquid of hollow slab 33 at this moment flows to cotton scraping bar 34 through worker's shape passageway 44, and then cooperates cotton scraping bar 34 to clean lens 2 in the rotatory in-process of follow-up cotton scraping bar 34.

As shown in fig. 3, the pull trigger mechanism 5 includes a fixing ring 51, a first elastic cord 52, a fixing block 53, and a second elastic cord 54.

More specifically, fixed cover of solid fixed ring 51 connects and sets up in the 1 outside of camera, first stretch cord 52 is provided with a plurality ofly, and is a plurality of the even fixed connection of first stretch cord 52 is between ring gear 31 and solid fixed ring 51, fixed block 53 is fixed to be set up in solid fixed ring 51 top, second stretch cord 54 fixed connection is on fixed block 53 right side, and its right-hand member and hollow slab 33 bottom left side fixed connection to when the gear fan 63 in actuating mechanism 6 no longer meshes with ring gear 31, at this moment under dragging of first stretch cord 52 and second stretch cord 54, ring gear 31 and hollow slab 33 reset gradually, and hollow slab 33 accomplishes the reverse scraping to lens 2 at the in-process that drives cotton scraping strip 34 and resets simultaneously.

As shown in fig. 2 and 6, the driving mechanism 6 includes a driving motor 61, a connecting plate 62, and a sector gear 63.

More specifically, driving motor 61 is fixed to be set up in camera 1 bottom, connection pad 62 is fixed to be set up in driving motor 61's output shaft end portion, the fixed cover of sector 63 connects and sets up in the connection pad 62 outside, and sector 63 and gear ring 31 meshing to it is rotatory to drive sector 63 through connection pad 62 after driving motor 61 starts, and sector 63 then drives gear ring 31 rotatory, and when sector 63 was rotatory to the vacancy position simultaneously, sector 63 no longer meshed with gear ring 31 this moment.

As shown in fig. 2, the liquid supply mechanism 7 includes a cleaning liquid storage tank 71 and a liquid supply pipe 72.

More specifically, washing liquid storage jar 71 is fixed to be set up in 1 top of camera, it sets up in the washing liquid storage jar 71 outside to shelter from cover 8 fixed cup joint, feed pipe 72 fixed connection is in washing liquid storage jar 71 right side bottom, and inside its right-hand member was fixed to run through hollow slab 33 and extend to hollow slab 33 to inside washing liquid storage jar 71 passes through feed pipe 72 and imports the washing liquid to hollow slab 33, but because the blockking of slip post 41, the washing liquid can't be by the inside outflow of hollow slab 33.

The working principle of the invention is as follows:

when the lens 2 is not required to be cleaned, due to the fixing effect of the torsion spring 36, the hollow plate 33 is located at the inner side of the gear ring 31 and is in a state of being perpendicular to the lens 2, and the lens 2 is not shielded;

the cleaning liquid storage tank 71 inputs the cleaning liquid into the inside of the hollow slab 33 through the liquid supply pipe 72, but the cleaning liquid cannot flow out from the inside of the hollow slab 33 due to the blockage of the sliding column 41;

when the lens 2 needs to be cleaned, the driving motor 61 is started, the driving motor 61 drives the sector gear 63 to rotate through the connecting disc 62 after being started, the sector gear 63 drives the gear ring 31 to rotate, and then the mounting frame 32 drives the hollow plate 33 and the cotton scraping strips 34 to rotate, in the process that the gear ring 31 and the hollow plate 33 rotate, the first elastic rope 52 and the second elastic rope 54 respectively drag the gear ring 31 and the hollow plate 33, at the moment, the hollow plate 33 is changed from a horizontal state to a vertical state, and the cotton scraping strips 34 are driven to be attached to the outer side of the lens 2;

meanwhile, when the cotton scraping strip 34 is attached to the outer side of the lens 2, the lens 2 extrudes the sliding column 41 through the cotton pad 43, at the moment, the cleaning liquid in the hollow plate 33 flows onto the cotton scraping strip 34 through the I-shaped channel 44, and then the lens 2 is cleaned by matching with the cotton scraping strip 34 in the subsequent rotation process of the cotton scraping strip 34;

when the sector 63 rotates to the vacant position, the sector 63 is no longer meshed with the gear ring 31, the gear ring 31 and the hollow plate 33 gradually reset under the pulling of the first elastic rope 52 and the second elastic rope 54, and meanwhile, the hollow plate 33 completes reverse scraping on the lens 2 in the process of driving the cotton scraping strip 34 to reset.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a big data information acquisition monitoring device, includes camera (1), camera (1) right-hand member is fixed to be provided with lens (2) and camera (1) top is fixed to be provided with and to shelter from cover (8), its characterized in that: the movable cleaning mechanism (3) is rotatably arranged on the outer side of the camera (1), a plurality of extrusion type trigger mechanisms (4) are arranged on the movable cleaning mechanism (3), a pulling type trigger mechanism (5) is arranged on the left side of the movable cleaning mechanism (3), the pulling type trigger mechanism (5) is fixedly arranged on the outer side of the camera (1), a driving mechanism (6) is fixedly arranged at the bottom of the camera (1), the driving mechanism (6) is in transmission connection with the movable cleaning mechanism (3), a liquid supply mechanism (7) is fixedly arranged at the top of the camera (1), a driving motor (61) in the driving mechanism (6) drives a toothed fan (63) to rotate through a connecting disc (62), the toothed fan (63) drives a gear ring (31) in the movable cleaning mechanism (3) to rotate, and then the mounting frame (32) drives a hollow plate (33) and a cotton scraping strip (34) to rotate, in the process of rotating the gear ring (31) and the hollow plate (33), the first elastic rope (52) and the second elastic rope (54) respectively drag the gear ring (31) and the hollow plate (33), at the moment, the hollow plate (33) is changed from a horizontal state to a vertical state, the cotton scraping strip (34) is driven to be attached to the outer side of the lens (2), meanwhile, when the cotton scraping strip (34) is attached to the outer side of the lens (2), the lens (2) extrudes the sliding column (41) through the cotton pad (43), cleaning liquid in the cleaning liquid storage tank (71) in the liquid supply mechanism (7) is input into the hollow plate (33) through the liquid supply pipe (72) and then flows onto the cotton scraping strip (34) through the I-shaped channel (44), and then the cleaning liquid is matched with the cotton scraping strip (34) to clean the lens (2) in the subsequent rotation process of the cotton scraping strip (34), when the gear fan (63) rotates to an empty position, at the moment, the sector (63) is not meshed with the gear ring (31) any more, the gear ring (31) and the hollow plate (33) are gradually reset under the pulling of the first elastic rope (52) and the second elastic rope (54), and meanwhile, the hollow plate (33) completes reverse scraping on the lens (2) in the process of driving the cotton scraping strip (34) to reset.

2. The big data information acquisition monitoring device according to claim 1, wherein: the movable cleaning mechanism (3) comprises a gear ring (31), a mounting rack (32), a hollow plate (33), a cotton scraping strip (34), a rotating shaft (35) and a torsion spring (36), the gear ring (31) is rotatably sleeved outside the camera (1) through a bearing, the mounting rack (32) is fixedly arranged at the top of the right side of the mounting rack (32), the hollow plate (33) is positioned at the inner side of the mounting rack (32), the cotton scraping strips (34) are adhered to the bottom of the hollow plate (33), two rotating shafts (35) and two torsion springs (36) are arranged, the two rotating shafts (35) are respectively and fixedly arranged on the front surface and the back surface of the hollow plate (33), the two rotating shafts (35) are rotatably connected with the mounting rack (32) through bearings, the two torsion springs (36) are respectively sleeved on the outer sides of the two rotating shafts (35), and one end of the hollow plate is fixedly connected with the hollow plate (33) and the other end is fixedly connected with the mounting frame (32).

3. The big data information acquisition monitoring device according to claim 2, wherein: extrusion formula trigger mechanism (4) are including slip post (41), spring (42), cotton pad (43) and worker's shape passageway (44), run through hollow slab (33) and cotton on slip post (41) vertical direction and scrape strip (34) and with hollow slab (33) sliding connection, spring (42) fixed connection is in slip post (41) top, and its and hollow slab (33) inner wall fixed connection, cotton pad (43) bonding sets up in slip post (41) bottom, worker's shape passageway (44) are seted up inside slip post (41).

4. The big data information acquisition monitoring device according to claim 3, wherein: drag formula trigger mechanism (5) of dragging including solid fixed ring (51), first stretch cord (52), fixed block (53) and second stretch cord (54), gu fixed ring (51) fixed cover connects and sets up in the camera (1) outside, first stretch cord (52) are provided with a plurality ofly, and are a plurality of even fixed connection in first stretch cord (52) is between gear ring (31) and solid fixed ring (51), fixed block (53) are fixed to be set up in solid fixed ring (51) top, second stretch cord (54) fixed connection is on fixed block (53) right side, and its right-hand member and hollow plate (33) bottom left side fixed connection.

5. The big data information acquisition monitoring device according to claim 4, wherein: actuating mechanism (6) include driving motor (61), connection pad (62) and sector (63), driving motor (61) are fixed to be set up in camera (1) bottom, connection pad (62) are fixed to be set up in the output shaft tip of driving motor (61), sector (63) are fixed to be cup jointed and set up in connection pad (62) outside, and sector (63) and gear ring (31) meshing.

6. The big data information acquisition monitoring device according to claim 6, wherein: supply liquid mechanism (7) including washing liquid storage jar (71) and feed pipe (72), washing liquid storage jar (71) are fixed to be set up in camera (1) top, cover (8) fixed the cup jointing and set up in washing liquid storage jar (71) outside, feed pipe (72) fixed connection is in washing liquid storage jar (71) right side bottom, and its right-hand member is fixed to run through hollow core plate (33) and extend to inside hollow core plate (33).