CN114227465A

CN114227465A - Mold outer surface grinding equipment for manufacturing microscope lens

Info

Publication number: CN114227465A
Application number: CN202111551883.1A
Authority: CN
Inventors: 曾明权; 谢炳高; 周兴华; 谢港; 谢炬; 谢华泽; 张竞; 孙小敏
Original assignee: Jiangxi Gaojia Photoelectric Technology Co ltd
Current assignee: Jiangxi Gaojia Photoelectric Technology Co ltd
Priority date: 2021-12-17
Filing date: 2021-12-17
Publication date: 2022-03-25

Abstract

The invention relates to a mold outer surface grinding device, in particular to a mold outer surface grinding device for manufacturing a microscope lens. The invention aims to provide a mold outer surface grinding device for manufacturing a microscope lens, which can automatically clamp a mold. The invention provides a device for grinding the outer surface of a mold for manufacturing a microscope lens, which comprises a base, a placing rack, an outer cover, a driving mechanism, a grinding mechanism and the like, wherein the placing rack for placing the mold is arranged at the top of the base, the outer cover is arranged at the top of the placing rack, the driving mechanism is positioned at the inner side of the outer cover, and the grinding mechanism is arranged on the driving mechanism. When the first sliding frame moves downwards, the inclined rod can be extruded to move leftwards, so that the second sliding frame is driven to move leftwards, the second limiting block can be driven to move inwards, and the first limiting block, the second limiting block and the third limiting block can clamp the die to prevent the die from moving.

Description

Mold outer surface grinding equipment for manufacturing microscope lens

Technical Field

The invention relates to a mold outer surface grinding device, in particular to a mold outer surface grinding device for manufacturing a microscope lens.

Background

Because the microscope lens needs high finish, the outer surface of the mold for manufacturing the microscope lens needs to be ground manually, so that the finish of the subsequently manufactured microscope lens is higher, and the requirement required by people is met.

At present, the existing mold outer surface grinding equipment for manufacturing microscope lenses generally comprises a base, a placing rack, an outer cover, a forming grinding tool, a driving mechanism and a grinding mechanism, wherein the placing rack is arranged at the top of the base, the outer cover is arranged at the top of the placing rack, the driving mechanism is positioned on the inner side of the outer cover, the grinding mechanism is arranged on the driving mechanism, and the forming grinding tool is arranged on the grinding mechanism. Put the placing frame top with the mould by the manual work, then can drive the shaping grinding apparatus through grinding machanism and rotate, rethread actuating mechanism can drive the shaping grinding apparatus and move down and grind the mould. Although the device can automatically grind the die, the die cannot be clamped, and the die is easy to shift, so that the grinding effect is influenced.

Therefore, the mold outer surface grinding device for manufacturing the microscope lens can automatically clamp the mold.

Disclosure of Invention

The invention aims to overcome the defects that the existing mold outer surface grinding equipment generally has no clamping function and the mold is easy to deviate, and provides mold outer surface grinding equipment for manufacturing a microscope lens, which can automatically clamp the mold.

The invention is realized by the following technical approaches:

the utility model provides a microscope camera lens is mould surface grinding device for manufacturing, which comprises a base, the rack, the dustcoat, the shaping grinding apparatus, actuating mechanism, grinding machanism, positioning mechanism and skew mechanism, the base top is equipped with the rack that is used for placing the mould, the rack top is equipped with the dustcoat, the rack top is equipped with actuating mechanism, actuating mechanism is located the dustcoat inboard, the last grinding machanism that is equipped with of actuating mechanism, the last shaping grinding apparatus that is used for grinding the mould that is equipped with of grinding machanism, the inside positioning mechanism who is used for pressing from both sides tight mould that is equipped with of rack, the last skew mechanism that is used for driving positioning mechanism work that is equipped with of positioning mechanism.

Optionally, actuating mechanism is including first guide bar, first carriage, electric putter and axle sleeve, and the symmetry is equipped with first guide bar around the left and right sides of placing the frame top is equal, and slidingtype is equipped with first carriage between first guide bar upper portion, all is equipped with electric putter in the middle of the left and right sides at rack top, and electric putter's telescopic link top all is connected bottom first carriage, and first carriage middle part is equipped with the axle sleeve.

Optionally, the grinding mechanism comprises a motor, a rotating rod, a worm and a worm gear, the motor is arranged on the left rear side of the top of the first sliding frame, the rotating rod is rotatably arranged on the inner side of the shaft sleeve, the lower portion of the rotating rod is connected with the forming grinding tool, the worm is arranged on an output shaft of the motor, the worm gear is arranged on the upper portion of the rotating rod, and the worm gear is meshed with the worm.

Optionally, the positioning mechanism is including first stopper, a slide rail, the second stopper, the second carriage, spacing sloping block and third stopper, the symmetry is equipped with first stopper around the top left side of rack, the inboard upper portion bilateral symmetry of rack is equipped with the slide rail, the quantity of slide rail is four, equal longitudinal symmetry slidingtype is equipped with the second stopper between two slide rails of homonymy, the second stopper all is connected with the rack slidingtype, the symmetrical slidingtype is equipped with the third stopper around the rack right part, be equipped with the second carriage between the third stopper lower part, the equal bilateral symmetry in both sides is equipped with spacing sloping block around the second carriage, spacing sloping block all is connected with adjacent second slidingtype stopper.

Optionally, the deviation mechanism includes a diagonal rod, a second guide rod, a guide sleeve and a first spring, the diagonal rod is arranged at the right part of the second sliding frame, the diagonal rod is connected with the placing frame in a sliding manner, the first sliding frame moves downwards to contact with the diagonal rod, the second guide rod is arranged in the middle of the left side of the lower portion of the diagonal rod, the left side of the second guide rod is connected with the second sliding frame, the guide sleeve is arranged at the inner top of the placing frame, the guide sleeve is connected with the second guide rod in a sliding manner, the first spring is wound on the second guide rod, and two ends of the first spring are respectively connected with the guide sleeve and the second guide rod.

Optionally, the polishing device further comprises a discharging mechanism for storing polishing paste, the discharging mechanism comprises a charging basket, a cover plate and a pressing plate, the charging basket is arranged on the front side of the middle of the first sliding frame, the cover plate is placed on the top of the charging basket, and the pressing plate is arranged on the inner side of the charging basket in a sliding mode.

Optionally, the polishing device further comprises a pressurizing mechanism for intermittently extruding polishing paste, the pressurizing mechanism comprises a limiting ring, a flow guide cover, a first one-way valve, a second one-way valve, a pull rod, a third guide rod and a second spring, the limiting ring is arranged on the lower portion of the rotating rod, the flow guide cover is arranged on the lower portion of the rear side of the charging basket, the first one-way valve is arranged between the left side and the right side of the upper portion of the flow guide cover and communicated with the upper portion of the rear side of the charging basket, the second one-way valve is arranged in the middle of the top of the flow guide cover and communicated with the top of the flow guide cover, the third guide rod is symmetrically arranged on the left side and the right side of the inner bottom of the flow guide cover, the pull rod is slidably arranged between the upper portions of the third guide rod and slidably connected with the flow guide cover, the pull rod is in contact with the limiting ring, the second spring is wound on the third guide rod, and two ends of the second spring are respectively connected with the pull rod and the flow guide cover.

Optionally, the shape of the stop collar is high in the front and low in the back, and the stop collar is arranged in an inclined manner.

Compared with the prior art, the invention has the remarkable improvements that:

1. according to the invention, the motor is used as a driving force to drive the forming grinding tool to rotate, then the electric push rod is used as a driving force to drive the first sliding frame and the forming grinding tool to move downwards, and the forming grinding tool can grind the die, so that manual grinding is not needed, and time and labor are saved.

2. When the first sliding frame moves downwards, the inclined rod can be extruded to move leftwards, so that the second sliding frame is driven to move leftwards, the second limiting block can be driven to move inwards, and the first limiting block, the second limiting block and the third limiting block can clamp the die to prevent the die from moving.

3. When the limiting ring rotates, the pull rod can be driven to intermittently move up and down under the coordination of the second spring, and polishing paste in the charging basket can be intermittently extruded under the action of atmospheric pressure, so that the polishing paste can intermittently fall down, the intermittent discharging function of the polishing paste is automatically completed, and the working efficiency is improved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a schematic view of a first partial body structure according to the present invention.

FIG. 3 is a schematic view of a second partial body structure according to the present invention.

Fig. 4 is a schematic perspective view of the driving mechanism of the present invention.

Fig. 5 is a schematic perspective view of a first embodiment of the grinding mechanism of the present invention.

Fig. 6 is a schematic perspective view of a second grinding mechanism according to the present invention.

Fig. 7 is a schematic perspective view of the positioning mechanism of the present invention.

Fig. 8 is a schematic view of a first partial structure of the positioning mechanism of the present invention.

Fig. 9 is a schematic view of a second partial structure of the positioning mechanism of the present invention.

Fig. 10 is a schematic perspective view of a first offset mechanism of the present invention.

Fig. 11 is a schematic perspective view of a second offset mechanism of the present invention.

Fig. 12 is a schematic perspective view of the discharging mechanism of the present invention.

FIG. 13 is a schematic view of the discharge mechanism of the present invention in partial cross-section.

Fig. 14 is a schematic view of a first partial body structure of the pressing mechanism of the present invention.

Fig. 15 is a schematic view of a second partial body structure of the pressing mechanism of the present invention.

Fig. 16 is a partial sectional structural view of the pressing mechanism of the present invention.

Description of reference numerals: 1_ base, 2_ rack, 3_ housing, 31_ molding die, 4_ driving mechanism, 41_ first guide bar, 42_ first sliding frame, 43_ electric push rod, 44_ shaft sleeve, 5_ grinding mechanism, 51_ motor, 52_ rotating rod, 54_ worm, 55_ worm wheel, 6_ positioning mechanism, 61_ first stopper, 62_ sliding rail, 63_ second stopper, 64_ second sliding frame, 65_ stopper inclined block, 66_ third stopper, 7_ offset mechanism, 71_ inclined rod, 72_ second guide bar, 73_ guide sleeve, 74_ first spring, 8_ discharge mechanism, 81_ material barrel, 82_ cover plate, 83_ press plate, 9_ pressurizing mechanism, 91_ stopper ring, 92_ guide sleeve, 93_ first one-way valve, 94_ second one-way valve, 95_ pull rod, 96_ third guide bar, 97_ second spring.

Detailed Description

The invention is further explained by combining the drawings in the specification and the embodiments of the invention are given by combining the drawings in the specification.

Example 1

The utility model provides a microscope camera lens is made and is used mould surface grinding equipment, refer to fig. 1-11, including base 1, rack 2, dustcoat 3, shaping grinding apparatus 31, actuating mechanism 4, grinding machanism 5, positioning mechanism 6 and skew mechanism 7, the welding of 1 top of base has rack 2, people can put the mould to rack 2 top, rack 2 top is equipped with dustcoat 3, rack 2 top is equipped with actuating mechanism 4, actuating mechanism 4 is located the 3 inboards of dustcoat, be equipped with grinding machanism 5 on the actuating mechanism 4, be equipped with shaping grinding apparatus 31 on grinding machanism 5, when shaping grinding apparatus 31 rotates, can grind the mould, rack 2 inside is equipped with positioning mechanism 6, be equipped with skew mechanism 7 on the positioning mechanism 6.

Referring to fig. 2-4, the driving mechanism 4 includes a first guide rod 41, a first sliding frame 42, an electric push rod 43 and a shaft sleeve 44, the first guide rod 41 is symmetrically welded to the front and back of the left and right sides of the top of the placing rack 2, the first sliding frame 42 is slidably arranged between the upper portions of the first guide rod 41, the electric push rod 43 is bolted to the middle of the left and right sides of the top of the placing rack 2, the top of a telescopic rod of the electric push rod 43 is connected with the bottom of the first sliding frame 42, the electric push rod 43 is started, the first sliding frame 42 can be driven to move downwards, the forming grinding tool 31 is driven to move downwards to contact with the die, and the shaft sleeve 44 is arranged in the middle of the first sliding frame 42.

Referring to fig. 2, 5 and 6, the grinding mechanism 5 includes a motor 51, a rotating rod 52, a worm 54 and a worm wheel 55, the motor 51 is bolted to the left rear side of the top of the first sliding frame 42, the rotating rod 52 is rotatably arranged inside the shaft sleeve 44, the lower part of the rotating rod 52 is connected with the forming grinding tool 31, the motor 51 is started to drive the rotating rod 52 and the forming grinding tool 31 to rotate, so as to complete the grinding work, the worm 54 is arranged on the output shaft of the motor 51, the worm wheel 55 is arranged on the upper part of the rotating rod 52, and the worm wheel 55 is meshed with the worm 54.

Referring to fig. 2, 7, 8 and 9, the positioning mechanism 6 includes a first stopper 61 and a slide rail 62, second stopper 63, second carriage 64, spacing sloping block 65 and third stopper 66, the symmetrical welding has first stopper 61 around the top left side of rack 2, the inboard upper portion bilateral symmetry of rack 2 is equipped with slide rail 62, the quantity of slide rail 62 is four, equal front and back symmetry slidingtype is equipped with second stopper 63 between two slide rails 62 of homonymy, second stopper 63 all is connected with rack 2 slidingtype, second stopper 63 can press from both sides the mould tightly when moving to the inboard, rack 2 right part front and back symmetry slidingtype is equipped with third stopper 66, be equipped with second carriage 64 between the third stopper 66 lower part, the equal bilateral symmetry in both sides is equipped with spacing sloping block 65 around second carriage 64, spacing sloping block 65 all is connected with adjacent second stopper 63 slidingtype.

Referring to fig. 2, 10 and 11, the shifting mechanism 7 includes an inclined rod 71, a second guide rod 72, a guide sleeve 73 and a first spring 74, the inclined rod 71 is welded at the right portion of the second sliding frame 64, the inclined rod 71 is slidably connected with the rack 2, the first sliding frame 42 moves downward and contacts with the inclined rod 71, when the inclined rod 71 moves leftward, the second sliding frame 64 and the limiting inclined block 65 can be driven to move leftward, so as to drive the second limiting block 63 to move inward to clamp the mold, the second guide rod 72 is welded in the middle of the left side of the lower portion of the inclined rod 71, the left side of the second guide rod 72 is connected with the second sliding frame 64, the guide sleeve 73 is arranged at the top portion of the rack 2, the guide sleeve 73 is slidably connected with the second guide rod 72, the first spring 74 is wound on the second guide rod 72, and two ends of the first spring 74 are respectively connected with the guide sleeve 73 and the second guide rod 72.

When people need to use the device, firstly, the die is placed in the middle of the top of the placing frame 2, the die is positioned between the second limit blocks 63, the left side of the die is contacted with the first limit blocks 61, then the motor 51 is started, the output shaft of the motor 51 drives the worm 54 to rotate, so as to drive the worm wheel 55 to rotate, the worm wheel 55 drives the rotating rod 52 and the forming grinding tool 31 to rotate, then the electric push rod 43 is started, the telescopic rod of the electric push rod 43 is controlled to shorten, so as to drive the first sliding frame 42 to move downwards, the first sliding frame 42 drives the shaft sleeve 44, the motor 51, the rotating rod 52, the worm 54 and the forming grinding tool 31 to move downwards, when the first sliding frame 42 is contacted with the inclined rod 71, the inclined rod 71 is extruded to move leftwards, the inclined rod 71 drives the second guide rod 72 and the second sliding frame 64 to move leftwards, the first spring 74 is compressed, the second sliding frame 64 drives the limit inclined block 65 and the third limit block 66 to move leftwards, the limiting inclined block 65 drives the second limiting block 63 to move inwards, the slide rail 62 plays a guiding role, so that the second limiting block 63 can clamp the front side and the rear side of the mold, the first limiting block 61 and the third limiting block 66 can clamp the left side and the right side of the mold, so as to limit the mold, when the molding abrasive tool 31 contacts with the mold, the telescopic rod of the electric push rod 43 is controlled to stop moving, at the moment, the molding abrasive tool 31 can grind the outer surface of the mold, during grinding, polishing paste needs to be manually put into the mold, so as to improve the grinding effect, after grinding is completed, the motor 51 is turned off, the molding abrasive tool 31 stops rotating, then the telescopic rod of the electric push rod 43 is controlled to extend, so as to drive the first sliding frame 42 to move upwards to reset, the first sliding frame 42 drives the shaft sleeve 44, the motor 51, the rotating rod 52, the worm 54 and the molding abrasive tool 31 to move upwards to reset, so that the molding abrasive tool 31 is separated from the mold, at this moment, the first sliding frame 42 is separated from the inclined rod 71, the first spring 74 is restored to the original state, the second guide rod 72, the second sliding frame 64 and the inclined rod 71 are driven to move rightwards and reset, the second sliding frame 64 drives the limiting inclined block 65 and the third limiting block 66 to move rightwards and reset, the limiting inclined block 65 drives the second limiting block 63 to move outwards and reset, the mold is loosened from the second limiting block 63 and the third limiting block 66, after the first sliding frame 42 is completely reset, the electric push rod 43 is closed, the ground mold is taken out manually, and the operation is repeated, so that the mold can be ground again.

Example 2

On the basis of embodiment 1, referring to fig. 2, 3, 12 and 13, the polishing slurry polishing device further comprises a discharging mechanism 8, wherein the discharging mechanism 8 comprises a material barrel 81, a cover plate 82 and a pressing plate 83, the material barrel 81 is bolted to the front side of the middle part of the first sliding frame 42, one can put polishing slurry into the material barrel 81, the cover plate 82 is placed on the top of the material barrel 81, and the pressing plate 83 is slidably arranged on the inner side of the material barrel 81.

Referring to fig. 3, 14, 15 and 16, the pneumatic device further comprises a pressurizing mechanism 9, the pressurizing mechanism 9 comprises a limiting ring 91, a guide hood 92, a first one-way valve 93, a second one-way valve 94, a pull rod 95, a third guide rod 96 and a second spring 97, the limiting ring 91 is welded on the lower portion of the rotating rod 52, the limiting ring 91 is obliquely arranged with a high front portion and a low rear portion, the guide hood 92 is arranged on the lower portion of the rear side of the material barrel 81, the first one-way valve 93 is arranged between the left side and the right side of the upper portion of the guide hood 92 and the upper portion of the rear side of the material barrel 81 and is communicated with the upper portion of the material barrel, the second one-way valve 94 is arranged in the middle of the top of the guide hood 92 and is communicated with the upper portion, the third guide rod 96 is symmetrically arranged on the left and right side of the inner bottom of the guide hood 92, the pull rod 95 is arranged between the upper portions of the third guide rod 96, the pull rod 95 is slidably connected with the guide hood 92, the pull rod 95 is in sliding contact with the limiting ring 91, and when the pull rod 95 reciprocates up and down, the air can be sent into the material barrel 81, thereby, the pressing plate 83 is pressed to move downwards, so that the polishing paste falls down onto the mold, the third guide rod 96 is wound with the second spring 97, and two ends of the second spring 97 are respectively connected with the pull rod 95 and the air guide sleeve 92.

When people need to use the device, the cover plate 82 can be pulled upwards to be opened, the pressing plate 83 is pulled upwards to be taken out, polishing paste is put into the charging basket 81, the pressing plate 83 is put back into the charging basket 81, the cover plate 82 is put back to the original position to be closed, the charging basket 81 is in a closed state, when the rotating rod 52 rotates, the limiting ring 91 can be driven to rotate, when the lower side of the limiting ring 91 is contacted with the pull rod 95, the pull rod 95 is extruded to move downwards, the second spring 97 is compressed, under the action of atmospheric pressure, outside air can enter the flow guide cover 92 through the second one-way valve 94, when the lower side of the limiting ring 91 is separated from the pull rod 95, the second spring 97 is restored to drive the pull rod 95 to move upwards to reset, the pull rod 95 can extrude air in the flow guide 92, and the air in the flow guide 92 can enter the upper part of the inner side of the charging basket 81 through the first one-way valve 93, thereby extrusion clamp plate 83 moves down, and clamp plate 83 extrudes the polishing cream in storage bucket 81 for polishing cream down drops to the mould in, so reciprocal, can accomplish the work of intermittent type nature interpolation polishing cream automatically, improves work efficiency, and when bull stick 52 stall, spacing ring 91 stall.

Finally, it is necessary to state that: the above-mentioned contents are only used to help understanding the technical solution of the present invention, and should not be interpreted as limiting the scope of the present invention; insubstantial modifications and adaptations of the invention as described above will occur to those skilled in the art and are intended to be within the scope of the invention as claimed.

Claims

1. A mold outer surface grinding device for manufacturing a microscope lens comprises a base (1), a placing rack (2), an outer cover (3) and a forming grinding tool (31), wherein the placing rack (2) for placing a mold is arranged at the top of the base (1), the outer cover (3) is arranged at the top of the placing rack (2), the forming grinding tool (31) is used for grinding the mold, the device is characterized by further comprising a driving mechanism (4), a grinding mechanism (5), a positioning mechanism (6) and a deviation mechanism (7), the driving mechanism (4) for driving the forming grinding tool (31) to move up and down is arranged at the top of the placing rack (2), the driving mechanism (4) is positioned at the inner side of the outer cover (3), the grinding mechanism (5) is arranged on the driving mechanism (4), the forming grinding tool (31) is installed on the grinding mechanism (5), the positioning mechanism (6) for clamping the mold is arranged inside the placing rack (2), the positioning mechanism (6) is provided with a deviation mechanism (7) for driving the positioning mechanism (6) to work.

2. The apparatus for grinding the outer surface of the mold for manufacturing the microscope lens according to claim 1, wherein the driving mechanism (4) comprises a first guide rod (41), a first sliding frame (42), an electric push rod (43) and a shaft sleeve (44), the first guide rod (41) is symmetrically arranged on the left side and the right side of the top of the placing frame (2) in the front-back direction, the first sliding frame (42) is slidably arranged between the upper parts of the first guide rod (41), the electric push rod (43) is arranged in the middle of the left side and the right side of the top of the placing frame (2), the top of the telescopic rod of the electric push rod (43) is connected with the bottom of the first sliding frame (42), and the shaft sleeve (44) is arranged in the middle of the first sliding frame (42).

3. The outer surface grinding device for the mold for manufacturing the microscope lens according to claim 2, wherein the grinding mechanism (5) comprises a motor (51), a rotating rod (52), a worm (54) and a worm wheel (55), the motor (51) is arranged on the left rear side of the top of the first sliding frame (42), the rotating rod (52) is rotatably arranged on the inner side of the shaft sleeve (44), the lower part of the rotating rod (52) is connected with the molding grinding tool (31), the worm (54) is arranged on an output shaft of the motor (51), the worm wheel (55) is arranged on the upper part of the rotating rod (52), and the worm wheel (55) is meshed with the worm (54).

4. The mold outer surface grinding device for manufacturing the microscope lens according to claim 3, wherein the positioning mechanism (6) comprises a first limiting block (61), a sliding rail (62), a second limiting block (63), a second sliding frame (64), a limiting inclined block (65) and a third limiting block (66), the first limiting block (61) is symmetrically arranged on the left side of the top of the placing frame (2) front and back, the sliding rail (62) is symmetrically arranged on the upper portion of the inner side of the placing frame (2) left and right, the number of the sliding rails (62) is four, the second limiting block (63) is symmetrically arranged between the two sliding rails (62) on the same side front and back in a sliding manner, the second limiting block (63) is slidably connected with the placing frame (2), the third limiting block (66) is symmetrically arranged on the right portion of the placing frame (2) front and back in a sliding manner, and the second sliding frame (64) is arranged between the lower portions of the third limiting blocks (66), the front side and the rear side of the second sliding frame (64) are symmetrically provided with limiting inclined blocks (65), and the limiting inclined blocks (65) are connected with adjacent second limiting blocks (63) in a sliding mode.

5. The apparatus for grinding the outer surface of a mold for manufacturing a microscope lens according to claim 4, the device is characterized in that the deviation mechanism (7) comprises an inclined rod (71), a second guide rod (72), a guide sleeve (73) and a first spring (74), the inclined rod (71) is arranged at the right part of the second sliding frame (64), the inclined rod (71) is connected with the placing frame (2) in a sliding mode, the first sliding frame (42) moves downwards to be in contact with the inclined rod (71), the second guide rod (72) is arranged in the middle of the left side of the lower part of the inclined rod (71), the left side of the second guide rod (72) is connected with the second sliding frame (64), the guide sleeve (73) is arranged at the inner top of the placing frame (2), the guide sleeve (73) is connected with the second guide rod (72) in a sliding mode, the first spring (74) is wound on the second guide rod (72), and two ends of the first spring (74) are respectively connected with the guide sleeve (73) and the second guide rod (72).

6. The apparatus for grinding the outer surface of the mold for manufacturing the microscope lens according to claim 5, further comprising a discharging mechanism (8) for storing polishing paste, wherein the discharging mechanism (8) comprises a material barrel (81), a cover plate (82) and a pressing plate (83), the material barrel (81) is arranged on the front side of the middle part of the first sliding frame (42), the cover plate (82) is arranged on the top of the material barrel (81), and the pressing plate (83) is slidably arranged on the inner side of the material barrel (81).

7. The outer surface grinding device of the mold for manufacturing the microscope lens according to claim 6, further comprising a pressurizing mechanism (9) for intermittently extruding polishing paste for blanking, wherein the pressurizing mechanism (9) comprises a limiting ring (91), a diversion cover (92), a first one-way valve (93), a second one-way valve (94), a pull rod (95), a third guide rod (96) and a second spring (97), the limiting ring (91) is arranged at the lower part of the rotating rod (52), the diversion cover (92) is arranged at the lower part of the rear side of the material barrel (81), the first one-way valve (93) is arranged between the left side and the right side of the upper part of the diversion cover (92) and the upper part of the rear side of the material barrel (81) and is communicated, the second one-way valve (94) is arranged in the middle of the top of the diversion cover (92) and is communicated, the third guide rods (96) are symmetrically arranged at the left and the right sides of the bottom of the diversion cover (92), and the pull rod (95) is slidably arranged between the upper parts of the third guide rods (96), pull rod (95) and kuppe (92) sliding connection, pull rod (95) and spacing ring (91) contact, all around on third guide bar (96) having second spring (97), the both ends of second spring (97) are connected with pull rod (95) and kuppe (92) respectively.

8. The apparatus for grinding the outer surface of a mold for manufacturing a microscope lens according to claim 7, wherein the retainer ring (91) has a shape of being inclined with a high front and a low back.