CN218130434U - Cleaning fluid circulating and filtering system of automatic hardening treatment equipment for lens surface - Google Patents

Abstract

The application relates to the field of swimming goggles processing equipment, in particular to a cleaning liquid circulating and filtering system of automatic hardening treatment equipment for the surface of a lens, which comprises a rack, a placing disc, a containing disc and a circulating mechanism, wherein the placing disc is fixed on the rack and is used for containing antifogging liquid; the circulating mechanism comprises a storage tank, a water inlet pipe, a water outlet pipe and a filter pump; the storage box is used for storing antifogging liquid, one end of the water inlet pipe is communicated with the storage box, and the other end of the water inlet pipe is communicated with the accommodating disc; one end of the water outlet pipe is communicated with the storage box, the other end of the water outlet pipe is communicated with the accommodating disc, and the filter pump is communicated with the water outlet pipe. This application has promoted the cleanliness of placing interior antifog liquid of dish.

Description

Cleaning fluid circulating and filtering system of automatic lens surface hardening equipment

Technical Field

The application relates to the field of swimming goggles processing equipment, in particular to a cleaning liquid circulating and filtering system of automatic hardening treatment equipment for surfaces of lenses.

Background

At present, swimming goggles are a piece of equipment in swimming sports, are tightly buckled on eyes when in use, can prevent water of a swimming pool from entering the eyes when people see clearly underwater, form necessary articles for swimming of a plurality of swimming enthusiasts, and bring much fun to the swimming sports. The swimming goggles are functionally distinguished from racing goggles, flat swimming goggles, myopia swimming goggles and presbyopic swimming goggles. The good swimming goggles also have the functions of high-performance antifogging, 100% ultraviolet resistance treatment and sealing, and have the functions of protecting and preventing the eyes from being injured.

The related art discloses an equipment for being directed at swimming goggles coating antifogging liquid, including the frame, has set gradually in the frame and has placed dish, holding dish and manipulator, and the holding dish is used for holding antifogging liquid, places the dish and is used for placing the swimming goggles, and the manipulator is used for transporting the swimming goggles of placing in the dish to the holding dish in and coats antifogging liquid.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: because the swimming goggles that need coat antifogging liquid are in large quantities, consequently when the manipulator carries a plurality of swimming goggles to the in-process that carries out the coating in the holding dish, the cleanliness of antifogging liquid in the holding dish can reduce gradually.

SUMMERY OF THE UTILITY MODEL

In order to promote the cleanliness of placing the interior antifog liquid of dish, this application provides a lens automatic hardening treatment equipment's in surface washing liquid circulating filtration system.

The application provides a washing liquid circulating filtration system of automatic sclerosis treatment facility in lens surface adopts following technical scheme:

a cleaning liquid circulating and filtering system of automatic lens surface hardening equipment comprises a rack, a placing disc, an accommodating disc and a circulating mechanism, wherein the placing disc is fixed on the rack and is used for accommodating antifogging liquid; the circulating mechanism comprises a storage box, a water inlet pipe, a water outlet pipe and a filter pump; the storage box is used for storing antifogging liquid, one end of the water inlet pipe is communicated with the storage box, and the other end of the water inlet pipe is communicated with the accommodating disc; one end of the water outlet pipe is communicated with the storage box, the other end of the water outlet pipe is communicated with the accommodating disc, and the filter pump is communicated with the water outlet pipe.

Through adopting above-mentioned technical scheme, under the effect of filter pump, the inlet tube conveys the antifogging liquid in the storage box to the holding dish in, conveys the antifogging liquid in the holding dish to the storage box through the outlet pipe simultaneously, has not only realized the reuse to antifogging liquid, has improved antifogging liquid's utilization ratio, and the filter pump can also get rid of the inside fixed particle of antifogging liquid simultaneously, has the filtering action to antifogging liquid, has increased the holistic cleanliness of antifogging liquid.

Optionally, the circulating mechanism further includes a carrier and a plurality of universal wheels, the universal wheels are all mounted on a lower surface of the carrier, and the storage box is fixed on an upper surface of the carrier.

Through adopting above-mentioned technical scheme, bear the weight of the effect to storage box and filtration pump, simultaneously because a plurality of universal wheels are installed in the lower surface that bears the frame, increased the convenience of staff's transport storage box.

Optionally, a first water drainage pipe is fixedly arranged on the storage box, the first water drainage pipe is communicated with the inside of the storage box, and one end of the water inlet pipe is sleeved on the first water drainage pipe.

Through adopting above-mentioned technical scheme, first calandria not only has the drainage function, and simultaneously at the in-process of connecting first calandria, the staff is located first calandria with an pot head of inlet tube on to be convenient for be that inlet tube and storage box are linked together, increased the convenience that the staff connects first calandria.

Optionally, the first water discharge pipe is sleeved with a first fixing ring.

Through adopting above-mentioned technical scheme, first solid fixed ring and first calandria have the clamping action to the inlet tube to be fixed in the inlet tube on the first calandria.

Optionally, a first water stop valve is arranged on the first drainage pipe.

By adopting the technical scheme, when the first drainage pipe is not required to be used, a worker can plug the first drainage pipe by rotating the first water stop valve; when the first drainage pipe needs to be used, a worker rotates the first water stop valve to enable the first drainage pipe to be in a circulation state.

Optionally, the top of the storage box is provided with an opening.

Through adopting above-mentioned technical scheme, increased the convenience that the staff changed antifog liquid.

Optionally, the storage box upper cover closes the lid.

Through adopting above-mentioned technical scheme, the lid has the shutoff effect to the storage box, can restrict the antifog liquid in the storage box on the one hand and spill over, also be convenient for simultaneously block that the outside debris of storage box get into inside the storage box to the clean and tidy degree of antifog liquid has been increased inside the storage box.

Optionally, a handle is fixedly arranged on the cover body.

Through adopting above-mentioned technical scheme, the staff grips the lid through gripping the handle, has increased the convenience that the lid was gripped in staff's transport.

In summary, the present application includes at least one of the following beneficial technical effects:

1. under the action of the filter pump, the water inlet pipe conveys the antifogging liquid in the storage box into the containing disc, and meanwhile, the antifogging liquid in the containing disc is conveyed into the storage box through the water outlet pipe, so that the antifogging liquid is recycled, the utilization rate of the antifogging liquid is improved, meanwhile, the filter pump can also remove fixed particles in the antifogging liquid, the antifogging liquid has a filtering effect, and the overall cleanliness of the antifogging liquid is improved;

2. the bearing frame has a bearing function on the storage box and the filter pump, and meanwhile, the plurality of universal wheels are arranged on the lower surface of the bearing frame, so that the convenience of carrying the storage box by workers is improved;

3. first calandria not only has the drainage function, is connecting the in-process of first calandria simultaneously, and the staff locates first calandria with the pot head of inlet tube on to be convenient for be that inlet tube and storage box are linked together, increased the convenience that the staff connects first calandria.

Drawings

Fig. 1 is a schematic structural diagram of an automatic lens surface hardening treatment apparatus in an embodiment of the present application.

Fig. 2 is a schematic structural diagram of the placing tray, the first connecting piece, the accommodating tray, the second connecting piece, the mechanical arm and the circulating filter device in the embodiment of the application.

Fig. 3 is a schematic structural diagram of an adsorption apparatus in an embodiment of the present application.

Fig. 4 is a schematic structural diagram of a rotating block and a guide block in an embodiment of the present application.

FIG. 5 is a schematic view showing the structure of the frame, the vibrating device and the circulating filter device in the embodiment of the present application.

Fig. 6 is a schematic structural diagram of a vibration device in an embodiment of the present application.

Fig. 7 is a schematic structural view of a clamping mechanism in an embodiment of the present application.

FIG. 8 is a schematic structural diagram of a circulation filter device in an embodiment of the present application.

Description of reference numerals:

1. a frame; 11. a support frame; 12. a carrier plate; 121. a third drain pipe; 2. placing a tray; 21. a placement groove; 3. a first connecting member; 31. a first connection block; 32. a first positioning block; 4. an accommodating tray; 41. a containing groove; 42. a positioning member; 43. positioning a groove; 5. a second connecting member; 51. a second connecting block; 52. a second positioning block; 6. a manipulator; 61. a mounting seat; 62. a first rotating arm; 63. a second rotating arm; 64. a third rotating arm; 65. a fourth rotating arm; 66. a fifth rotating arm; 7. an adsorption device; 71. a carrier; 711. a bearing block; 712. a bearing block; 72. rotating the rod; 721. a second guide groove; 722. a second bolt; 73. a drive mechanism; 731. a support; 732. a first cylinder; 733. rotating the block; 734. an eccentric rod; 735. positioning holes; 736. a first guide groove; 737. a first bolt; 738. a second anti-drop block; 739. a guide block; 74. a suction cup; 8. a vibrating device; 81. a clamping mechanism; 811. a second cylinder; 812. mounting blocks; 8121. a cavity; 8122. a first sliding groove; 8123. a second sliding groove; 8124. a fixed part; 813. a linkage block; 8131. a chute; 814. a clamping member; 8141. a clamping block; 8142. a slide bar; 8143. a first anti-drop block; 8144. a clamping groove; 82. a vibration motor; 821. a flange; 9. a circulating filtration device; 91. a storage box; 911. a first drain pipe; 912. a second drain pipe; 913. a first water stop valve; 914. a second water stop valve; 92. a cover body; 921. a handle; 93. a water inlet pipe; 931. a first retaining ring; 94. a water outlet pipe; 941. a second retaining ring; 95. a filtration pump; 96. a carrying frame; 97. a universal wheel; 98. and fixing the half rings.

Detailed Description

The present application is described in further detail below with reference to figures 1-8.

In the horizontal direction in this embodiment, referring to fig. 1, the longitudinal direction of the X axis is defined as a first direction, and the longitudinal direction of the Y axis is defined as a second direction, and the automatic lens surface hardening apparatus will be described based on this.

The embodiment of the application discloses automatic hardening treatment equipment for a lens surface. Referring to fig. 1, the automatic lens surface hardening equipment includes a frame 1, specifically, the frame 1 includes a supporting frame 11 and a bearing plate 12, the bearing plate 12 is fixed on the supporting frame 11, the bearing plate 12 is horizontally disposed, and the bearing plate 12 is located in the middle of the supporting frame 11. The upper surface of the bearing plate 12 is fixedly provided with two placing discs 2, and the two placing discs 2 are arranged at intervals along a first direction. A plurality of placing grooves 21 for placing the lenses are formed in the upper surface of each placing disc 2, and the placing grooves 21 are distributed in a rectangular array.

Referring to fig. 1 and 2, each of three adjacent sidewalls of the placing tray 2 is provided with a first connecting member 3, each first connecting member 3 includes a first connecting block 31 and a first positioning block 32, the first connecting block 31 and the first positioning block 32 are integrally formed, and the first connecting block 31 and the first positioning block 32 are perpendicular to each other. Each first positioning block 32 abuts against the sidewall of the placing tray 2, and each first connecting block 31 abuts against the upper surface of the bearing plate 12. All wear to be equipped with a plurality of bolts on every first connecting block 31, a plurality of bolts all with loading board 12 screw-thread fit to be fixed in the upper surface of loading board 12 with first connecting block 31, and then be fixed in the upper surface of loading board 12 with first locating block 32. Because the lateral wall of three first locating piece 32 butt respectively in placing the adjacent three lateral wall of dish 2, three first locating piece 32 not only has the locate function to placing dish 2, also has the fixed action to placing dish 2 simultaneously to will place dish 2 and be fixed in the upper surface of loading board 12.

With reference to fig. 1 and fig. 2, two accommodating discs 4 are further fixedly disposed on the upper surface of the bearing plate 12, the two accommodating discs 4 are arranged at intervals along the first direction, the upper surfaces of the two accommodating discs 4 are both provided with accommodating grooves 41, and the accommodating grooves 41 are used for accommodating the surface treatment liquid. In this embodiment, the surface treatment liquid is a strengthening liquid. Three positioning members 42 are further fixedly disposed in the accommodating groove 41, the three positioning members 42 are arranged at intervals along the second direction, each positioning member 42 extends along the first direction, and two ends of each positioning member 42 abut against two opposite sidewalls of the accommodating groove 41 respectively. A plurality of constant head tanks 43 have all been seted up on every setting element 42, and a plurality of constant head tanks 43 all have the positioning action to the lens along first direction evenly distributed, a plurality of constant head tanks 43, have increased the stability that the lens was placed in holding dish 4.

Referring to fig. 2, the adjacent three side walls of each accommodating tray 4 are provided with a second connecting member 5, each second connecting member 5 includes a second connecting block 51 and a second positioning block 52, the second connecting block 51 and the second positioning block 52 are integrally formed, and the second connecting block 51 and the second positioning block 52 are perpendicular to each other. Each second positioning block 52 abuts against the sidewall of the accommodating tray 4, and each second connecting block 51 abuts against the upper surface of the bearing plate 12. A plurality of bolts are arranged on each second connecting block 51 in a penetrating manner and are matched with the bearing plate 12 in a threaded manner, so that the second connecting blocks 51 are fixed on the upper surface of the bearing plate 12, and the second positioning blocks 52 are fixed on the upper surface of the bearing plate 12. Since the sidewalls of the three second positioning blocks 52 are respectively abutted against the three adjacent sidewalls of the accommodating tray 4, the three second positioning blocks 52 not only have a positioning function for the accommodating tray 4, but also have a fixing function for the accommodating tray 4, so that the accommodating tray 4 is fixed on the upper surface of the bearing plate 12.

Referring to fig. 1 and 2, the automatic lens surface hardening apparatus further includes a robot 6 and an adsorption device 7, the robot 6 is mounted on the upper surface of the carrying plate 12, and the robot 6 is located between the two placing trays 2. Specifically, the robot 6 includes a mount 61, a first rotating arm 62, a second rotating arm 63, a third rotating arm 64, a fourth rotating arm 65, and a fifth rotating arm 66. The mounting seat 61 is fixed on the upper surface of the loading plate 12 through a bolt, the bottom end of the first rotating arm 62 is rotatably connected with the top end of the mounting seat 61, one end of the second rotating arm 63 close to the first rotating arm 62 is rotatably connected with the top end of the first rotating arm 62, one end of the third rotating arm 64 is rotatably connected with one end of the second rotating arm 63 far away from the first rotating arm 62, one end of the fourth rotating arm 65 is rotatably connected with one end of the third rotating arm 64 far away from the second rotating arm 63, one end of the fifth rotating arm 66 is rotatably connected with one end of the fourth rotating arm 65 far away from the third rotating arm 64, the adsorption device 7 is fixed on the fifth rotating arm 66, and the adsorption device 7 is used for adsorbing a plurality of lenses simultaneously. The mechanical arm 6 drives the adsorption device 7 to realize multi-angle motion in the support frame 11, so that the lenses in the placing disc 2 can be conveniently conveyed into the accommodating disc 4.

Referring to fig. 2 and 3, in particular, the suction device 7 includes a carrier 71, a rotating rod 72, a driving mechanism 73, and a plurality of suction cups 74. The bearing member 71 includes a bearing block 711 and two bearing blocks 712, the two bearing blocks 712 are all fixed on the bearing block 711 by bolts, the two bearing blocks 712 are respectively located at two ends of the bearing block 711, the two bearing blocks 712 are parallel to each other, the two bearing blocks 712 are perpendicular to the bearing block 711, and one end of the fifth rotating arm 66 far away from the fourth rotating arm 65 is fixedly connected with the bearing block 711. Two ends of the rotating rod 72 are respectively inserted into the two bearing blocks 712, and two ends of the rotating rod 72 are respectively rotatably connected with the two bearing blocks 712. In this embodiment, the number of the suction cups 74 is eight, the eight suction cups 74 are all fixed on the rotating rod 72, the eight suction cups 74 are distributed at equal intervals along the length direction of the rotating rod 72, and the eight suction cups 74 are all used for adsorbing lenses. The driving mechanism 73 is disposed on one of the bearing blocks 712, and the driving mechanism 73 is used for driving the rotating rod 72 to rotate.

Referring to fig. 3 and 4, in detail, the driving mechanism 73 includes a support 731, a first cylinder 732, a rotating block 733, and an eccentric rod 734. The support 731 is fixed on one of the side walls of the support block 712, and the end of the first cylinder 732 away from the piston rod is rotatably connected with the support 731. The rotating block 733 is fixed to one end of the rotating rod 72, and the end of the rotating rod 72 is perpendicular to the surface of the rotating block 733. The eccentric bar 734 is fixed to a side wall of the rotating block 733 facing away from the rotating rod 72, the eccentric bar 734 penetrates a piston rod of the first cylinder 732, and the eccentric bar 734 is rotatably connected to the piston rod of the first cylinder 732. Meanwhile, a second anti-slip block 738 is fixedly arranged at one end of the eccentric rod 734 penetrating through the piston rod of the first cylinder 732, the piston rod of the first cylinder 732 is positioned between the second anti-slip block 738 and the bearing block 712, and the second anti-slip block 738 and the bearing block 712 have a limiting effect on the piston rod of the first cylinder 732, so that the piston rod of the first cylinder 732 can not slip in the length direction of the eccentric rod 734. It should be noted that in this embodiment, the axis of the rotating rod 72 and the axis of the eccentric rod 734 are not on the same straight line, the first cylinder 732 drives the piston rod to extend and retract, the piston rod drives the eccentric rod 734 to move toward a direction close to or away from the support 731 during the extending and retracting process, the eccentric rod 734 drives the rotating block 733 to rotate during the moving process, the rotating block 733 drives the rotating rod 72 to rotate, and the rotating rod 72 drives the lens to rotate at the same time, thereby achieving automatic adjustment of the tilt angles of the lenses.

Referring to fig. 4, the rotating block 733 is provided with a positioning hole 735, and one end of the rotating rod 72 is inserted into the positioning hole 735. The positioning hole 735 has a positioning effect on the rotating rod 72, and increases the efficiency of the worker for mounting the rotating block 733 on the rotating rod 72. The inner side wall of the positioning hole 735 is provided with a first guide groove 736, the first guide groove 736 is communicated with the rotating hole, and the outer side wall of the rotating rod 72 is provided with a second guide groove 721. The driving mechanism 73 further includes a guide block 739, the guide block 739 abuts against the inner wall of the first guide groove 736, and the guide block 739 abuts against the inner wall of the second guide groove 721. Both the first guide groove 736 and the second guide groove 721 have a positioning effect on the guide block 739, and on the other hand, since the guide block 739 abuts against the inner side wall of the first guide groove 736 and the guide block 739 abuts against the inner side wall of the second guide groove 721, the guide block 739 prevents the rotation block 733 from rotating relative to the rotation rod 72, so that the rotation block 733 stably drives the rotation rod 72 to rotate during the rotation process. The rotating block 733 is further provided with a first bolt 737, and the first bolt 737 is screwed with the guide block 739 to fix the rotating block 733 to the rotating rod 72. Meanwhile, a second bolt 722 is screwed to the end of the rotating rod 72, and a nut of the second bolt 722 abuts against one end of the guide block 739. Therefore, the nut of the second bolt 722 has a limiting effect on the guide block 739, so that the guide block 739 is not easily slid out of the first guide groove 736 and the second guide groove 721.

Referring to fig. 1 and 6, four vibration devices 8 are further fixedly disposed on the lower surface of the carrier plate 12, wherein two vibration devices 8 are disposed below one of the accommodating discs 4, and the other two vibration devices 8 are disposed below the other accommodating disc 4.

With continued reference to fig. 1 and 6, specifically, each vibration device 8 includes a clamping mechanism 81 and a vibration motor 82, the clamping mechanism 81 is disposed on the rack 1, and the clamping mechanism 81 is used for clamping the vibration motor 82. Vibrating motor 82 drives holding dish 4 vibration at the in-process of work, and holding dish 4 drives the inside surface treatment liquid of holding dish 4 and strikes the surface of lens at the in-process of vibration, not only can make the surface treatment liquid in the holding dish 4 more even, also enables the surface treatment liquid more even coating in the surface of lens simultaneously to make the lens not only have antifog function, make the surface of lens more pleasing to the eye simultaneously.

Referring to fig. 6 and 7, in particular, each clamping mechanism 81 includes a second cylinder 811, a mounting block 812, a linkage block 813, and two clamping members 814. The mounting block 812 is fixed on the lower surface of the bearing plate 12, a cavity 8121 is formed in the side wall of the mounting block 812, and the cavity 8121 extends along the second direction. The one end that cavity 8121 is close to placing dish 2 is the closed setting, and the one end that cavity 8121 kept away from placing dish 2 is the opening setting. First groove 8122 that slides has all been seted up to two relative lateral walls of cavity 8121, and two first grooves 8122 that slide all extend along the second direction. And one end of the first sliding slot 8122 is closed, and the other end of the first sliding slot 8122 is open. Two sides of the linkage block 813 are respectively located in the two first sliding grooves 8122, and the linkage block 813 is in sliding fit with the two first sliding grooves 8122 at the same time. The second cylinder 811 is fixed at one end of the mounting block 812, a piston rod of the second cylinder 811 penetrates through the mounting block 812, the piston rod is in sliding fit with the mounting block 812, and the piston rod of the second cylinder 811 is fixedly connected with the linkage block 813. The second groove 8123 that slides that runs through is seted up to the lower surface of installation piece 812, and the second groove 8123 that slides is linked together with cavity 8121, and the second groove 8123 that slides extends along the first direction, and the both ends of the second groove 8123 that slides all are the setting of sealing. Link block 813 is last to have seted up two chutes 8131, and two chutes 8131 all are the slope setting, and two chute 8131 mutual symmetries. The clamping piece 814 comprises a clamping block 8141 and a sliding rod 8142, the top end of the sliding rod 8142 is fixedly connected with the clamping block 8141, the bottom end of the sliding rod 8142 sequentially penetrates through the second sliding groove 8123 and the chute 8131, the sliding rod 8142 is in sliding fit with the second sliding groove 8123, and the sliding rod 8142 is in sliding fit with the chute 8131.

With continued reference to fig. 6 and 7, during the process that the first cylinder 732 drives the linkage block 813 to slide towards the direction close to the vibration motor 82, the first sliding slot 8122 has a guiding effect on the linkage block 813, so that the sliding stability of the linkage block 813 is increased. Meanwhile, in the sliding process of the linkage block 813 towards the direction close to the vibration motor 82, as the sliding rod 8142 is in sliding fit with the chute 8131, the sliding rod 8142 is in sliding fit with the second sliding groove 8123, the first sliding groove 8122 is perpendicular to the second sliding groove 8123, and the two chutes 8131 are symmetrical to each other, the linkage block 813 can drive the two sliding rods 8142 to slide towards the direction close to or far from each other in the second sliding groove 8123 simultaneously in the sliding process along the first sliding groove 8122, and the two sliding rods 8142 respectively drive the two clamping blocks 8141 to slide towards the direction close to or far from each other, so that the convenience of installing and detaching the vibration motor 82 by a worker is improved.

Referring to fig. 7, a first anti-falling block 8143 is fixedly disposed at one end of the sliding rod 8142 away from the clamping block 8141, and the linkage block 813 is located between the first anti-falling block 8143 and the clamping block 8141. The clamping block 8141 abuts against the surface of the mounting block 812, and the first anti-slip block 8143 abuts against the surface of the linkage block 813. In the sliding process of the sliding rod 8142, the clamping block 8141 abuts against the surface of the installation block 812, and the first anti-falling block 8143 abuts against the surface of the linkage block 813, so that the clamping block 8141 and the linkage block 813 have positioning effects on two ends of the sliding rod 8142 respectively, and the stability of the sliding rod 8142 sliding along the length direction of the second sliding groove 8123 is improved.

Continuing to refer to fig. 6 and 7, joint groove 8144 has all been seted up to the lateral wall that two grip blocks 8141 are close to each other, and in this embodiment, joint groove 8144 is the arc wall, and vibrating motor 82's both sides butt respectively in two joint groove 8144's inside wall, and two joint grooves 8144 have positioning action and limiting displacement to vibrating motor 82, have increased the fastness of motor installation. Meanwhile, a flange 821 is fixedly arranged on the outer side wall of the top end of the vibration motor 82, the upper surfaces of the two clamping blocks 8141 are abutted to the lower surface of the flange 821, and the two clamping blocks 8141 and the bearing plate 12 have a clamping effect on the flange 821, so that the flange 821 is fixed to the lower surface of the bearing plate 12, and the vibration motor 82 is further fixed to the lower surface of the bearing plate 12.

Referring to fig. 6, two opposite sidewalls of the mounting block 812 are integrally formed with fixing portions 8124, and upper surfaces of the two fixing portions are abutted against a lower surface of the carrier plate 12. Two bolts are arranged on each fixing part 8124 in a penetrating mode, and each bolt is matched with the thread of the rack 1. The nut of the bolt and the frame 1 have a fixing effect on the fixing portion 8124, so that the mounting block 812 is fixed, and convenience of installing and detaching the mounting block 812 by workers is improved.

Referring to fig. 5 and 8, the circulation filter device 9 includes a storage box 91, a carriage 96, and a plurality of universal wheels 97, in this embodiment, the carriage 96 is horizontally disposed, and the storage box 91 is fixed to the upper surface of the carriage 96. The number of universal wheels 97 is four, and four universal wheels 97 are all installed in the lower surface of bearing frame 96, and four universal wheels 97 are the rectangular array and distribute. Four universal wheels 97 increase the convenience of the worker in carrying the storage box 91.

Referring to fig. 8, in particular, the top end of the storage tank 91 is provided in an open manner, and the storage tank 91 is used for storing the surface treatment liquid. Simultaneously, the top end of the storage box 91 is also covered with the cover body 92, the cover body 92 is fixedly provided with a handle 921, the cover body 92 is held by an operator through the handle 921, and the convenience of holding the cover body 92 by the operator is improved.

Referring to fig. 5 and 8, two first drain pipes 911 are fixedly arranged at one side of the storage tank 91 close to the rack 1, and the two first drain pipes 911 are both communicated with the inside of the storage tank 91. One side that storage box 91 deviates from frame 1 is fixed to be provided with two second drain pipes 912, and two second drain pipes 912 all are linked together with storage box 91 is inside, and two first drain pipes 911 all are located two second drain pipe 912 tops.

Referring to fig. 2 and 5, two third drainage pipes 121 are fixedly disposed on the bearing plate 12, top ends of the two third drainage pipes 121 both penetrate through the bottom of the accommodating tray 4, and both the two third drainage pipes 121 are communicated with the accommodating tray 4.

Referring to fig. 5 and 8, the circulation filter device 9 further includes a water inlet pipe 93, a water outlet pipe 94, and two filter pumps 95. In this embodiment, the water inlet tube 93 and the water outlet tube 94 are both hoses, one end of the water inlet tube 93 is sleeved on one end of one of the first drain tubes 911 away from the storage tank 91, and the other end of the water inlet tube 93 is sleeved on the bottom end of one of the third drain tubes 121. Meanwhile, one end of the water outlet pipe 94 is sleeved at one end of one of the second water discharge pipes 912 far away from the storage tank 91, and the other end of the water outlet pipe 94 is sleeved at the bottom end of the other third water discharge pipe 121. One of the filter pumps 95 is fixed to the side wall of the storage tank 91, the other filter pump 95 is fixed to the upper surface of the bearing frame 96, and both the filter pumps 95 are communicated with the water outlet pipe 94.

Referring to fig. 8, the outer sidewall of the water inlet pipe 93 near one end of the storage box 91 is sleeved with a first fixing ring 931, and the outer sidewall of the first water outlet pipe 911 is sleeved with the first fixing ring 931, so that the firmness of connection between the water inlet pipe 93 and the first water outlet pipe 911 is increased by the first fixing ring 931. The lateral wall cover that outlet pipe 94 is close to storage box 91 one end simultaneously is equipped with the solid fixed ring 941 of second, and the lateral wall of second drain pipe 912 is located to the solid fixed ring 941 cover of second simultaneously, and the solid nature of being connected between outlet pipe 94 and the second drain pipe 912 has been increased to the solid fixed ring 941 of second.

With continued reference to fig. 8, a first water stop valve 913 is disposed on each of the two first drainage pipes 911, and a second water stop valve 914 is disposed on each of the two second drainage pipes 912. The staff is convenient for realize opening and close to first drain pipe 911 through rotatory first stagnant water valve 913, and the staff is convenient for realize opening and close to second drain pipe 912 through rotatory second stagnant water valve 914. It should be noted that, since the storage tank 91 has two first drain pipes 911 and two second drain pipes 912, the surface treatment liquid in the two receiving trays 4 can be filtered at the same time.

With continued reference to fig. 8, in which the sidewall of the storage tank 91 is fixedly provided with the stationary half ring 98 by means of bolts, the bottom end of the filtrate pump 95 of the sidewall of the storage tank 91 is located inside the stationary half ring 98, thereby increasing the firmness of the installation of the filtrate pump 95 to the sidewall of the storage tank 91. Under the effect of two filter pumps 95, the surface treatment liquid in the storage tank 91 is conveyed to the accommodating disc 4 by the water inlet pipe 93, and the surface treatment liquid in the accommodating disc 4 is conveyed to the storage tank 91 by the water outlet pipe 94, so that the surface treatment liquid is recycled, the utilization rate of the surface treatment liquid is improved, fixed particles in the surface treatment liquid can be removed by the filter pumps 95, the surface treatment liquid is filtered, and the overall cleanliness of the surface treatment liquid is improved.

The implementation principle of the above embodiment is as follows: under the effect of the filter pump 95, the water inlet pipe 93 conveys the antifogging liquid in the storage tank 91 to the accommodating disc 4, and simultaneously conveys the antifogging liquid in the accommodating disc 4 to the storage tank 91 through the water outlet pipe 94, so that the antifogging liquid is recycled, the utilization rate of the antifogging liquid is improved, meanwhile, the filter pump 95 can also remove fixed particles in the antifogging liquid, the antifogging liquid has a filtering effect, and the overall cleanliness of the antifogging liquid is increased.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A cleaning solution circulating and filtering system of automatic lens surface hardening equipment is characterized in that: the antifogging device comprises a rack (1), a placing disc (2), an accommodating disc (4) and a circulating mechanism, wherein the placing disc (2) is fixed on the rack (1), and the placing disc (2) is used for accommodating antifogging liquid; the circulating mechanism comprises a storage tank (91), a water inlet pipe (93), a water outlet pipe (94) and a filter pump (95); the storage box (91) is used for storing antifogging liquid, one end of the water inlet pipe (93) is communicated with the storage box (91), and the other end of the water inlet pipe (93) is communicated with the accommodating disc (4); one end of the water outlet pipe (94) is communicated with the storage tank (91), the other end of the water outlet pipe (94) is communicated with the accommodating disc (4), and the filter pump (95) is communicated with the water outlet pipe (94).

2. The cleaning liquid circulation filtration system for an automatic lens surface hardening treatment apparatus according to claim 1, wherein: the circulating mechanism further comprises a bearing frame and a plurality of universal wheels (97), the universal wheels (97) are all mounted on the lower surface of the bearing frame, and the storage box (91) is fixed on the upper surface of the bearing frame.

3. The cleaning liquid circulation filtration system for an automatic lens surface hardening treatment apparatus according to claim 1, wherein: the utility model discloses a water inlet pipe, including storage box (91), fixed being provided with first drain pipe (911) on storage box (91), first drain pipe (911) with storage box (91) is inside to be linked together, the one end cover of inlet tube (93) is located on first drain pipe (911).

4. The cleaning liquid circulation filtering system for the automatic lens surface hardening equipment according to claim 3, wherein: a first fixing ring (931) is sleeved on the first water discharging pipe (911).

5. The cleaning liquid circulation filtering system for the automatic lens surface hardening equipment according to claim 3, wherein: and a first water stop valve (913) is arranged on the first drainage pipe (911).

6. The cleaning liquid circulation filtration system for an automatic lens surface hardening treatment apparatus according to claim 1, wherein: the top of the storage box (91) is arranged in an opening mode.

7. The cleaning liquid circulation filtering system of the automatic lens surface hardening equipment according to claim 1, wherein: the upper cover of the storage box (91) is provided with a cover body (92).

8. The cleaning liquid circulation filtration system for an automatic lens surface hardening treatment apparatus according to claim 7, wherein: the cover body (92) is fixedly provided with a handle (921).

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