CN112828341B - Semi-automatic drilling equipment of customization spectacle-frame - Google Patents

Abstract

The invention relates to drilling equipment, in particular to semi-automatic drilling equipment for a customized spectacle frame. The invention provides a semi-automatic drilling device for a customized spectacle frame, which can drill the spectacle frame, simultaneously can position and clamp the spectacle frame, and can rapidly cool a drilling mechanism. The technical implementation scheme of the invention is as follows: the utility model provides a semi-automatic drilling equipment of customization spectacle-frame, includes support, bottom plate and cylinder, and support top rigid coupling has the bottom plate, has the cylinder through bolted connection between the support, is equipped with pushing equipment on the bottom plate, and pushing equipment is connected with the telescopic link of cylinder, installs drilling subassembly on the bottom plate. According to the invention, the pushing mechanism is arranged and matched with the drilling mechanism, so that the spaced pushing and drilling work of the glasses frame can be realized; the cooling mechanism is matched with the drilling mechanism, so that a proper amount of tap water can be sprayed onto the drilling assembly to quickly cool, and then a worker can quickly take out the glasses frame with the drilled holes.

Description

Semi-automatic drilling equipment of customization spectacle-frame

Technical Field

The invention relates to drilling equipment, in particular to semi-automatic drilling equipment for a customized spectacle frame.

Background

Glasses frame is the skeleton of glasses, and its main action is supporting lens, location interpupillary distance and wearing comfortable effect, and the workman of glasses frame mill generally all needs to drill on the glasses frame earlier, and the workman is manual to the glasses frame drilling needs expend great strength, and current glasses frame drilling equipment can't carry out cooling work simultaneously, and glasses frame can remove at will in drilling process moreover.

Patent application number CN206241297U discloses a glasses frame drilling machine capable of rotating at multiple angles, which comprises a base, a drill bit arranged on the base and a fixing device for fixing the glasses frame. The fixing device comprises a mounting plate, a left moving block, a right moving block, a front moving block, a back moving block, a supporting block and a rotating device, wherein the front moving block and the back moving block are arranged on the left moving block and the right moving block in a front-back moving mode, the supporting block is fixedly arranged on the front moving block and the back moving block, and the rotating device is arranged above the supporting block. The rotating device is provided with a glasses frame mounting seat for fixing glasses frames. The invention has simple structure and convenient operation, realizes the drilling work of the glasses frame, improves the production efficiency, but does not realize the automation better in the operation process, and the drilling machine is not provided with any cooling component, so that the hands of workers can be injured in the process of taking out the glasses frame.

Therefore, to the above-mentioned prior art problem, we have designed a semi-automatic drilling equipment of customization spectacle-frame that can drill the spectacle-frame, can fix a position the clamping with the spectacle-frame simultaneously, can cool down to drilling mechanism fast moreover.

Disclosure of Invention

The invention aims to provide the customized glasses frame semiautomatic drilling equipment which can drill holes on the glasses frame, can position and clamp the glasses frame and can rapidly cool down the drilling mechanism, so as to solve the defects that in the prior art, a worker needs to consume great force for drilling the glasses frame manually, the conventional glasses frame drilling equipment cannot cool down, and the glasses frame can move at will in the drilling process.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a semi-automatic drilling equipment of customization spectacle-frame, includes support, bottom plate and cylinder, and support top rigid coupling has the bottom plate, has the cylinder through bolted connection between the support, is equipped with pushing equipment on the bottom plate, and pushing equipment is connected with the telescopic link of cylinder, installs drilling equipment on the bottom plate.

More preferably, the middle part of the bottom plate is fixedly connected with a first guide sleeve, a push rod is arranged in the first guide sleeve in a sliding manner, the end part of the push rod is connected with a telescopic rod of the air cylinder, an extension spring is sleeved on the push rod, and two ends of the extension spring are respectively connected to the first guide sleeve and the push rod.

More preferably, the middle part of the bottom plate is symmetrically welded with second guide sleeves, a drilling assembly is arranged between the two second guide sleeves in a sliding mode, a first compression spring is sleeved on the drilling assembly, two ends of the first compression spring are respectively connected to the second guide sleeves and the drilling assembly, a first pressing plate is fixedly connected to the upper part of the drilling assembly, a first rotating sleeve is symmetrically arranged on the bottom plate, a rotating shaft is rotatably arranged between the two first rotating sleeves, rollers are fixedly connected to two ends of the rotating shaft, elastic blocks are arranged at two parts of the bottom plate in a sliding mode, the elastic blocks are in contact fit with the push rods, pull ropes are connected to two sides of the bottom of the first pressing plate, and the ends of the two pull ropes are connected to the corresponding elastic blocks by bypassing the rollers.

More preferably, the water bucket is arranged in the middle of the bottom plate, the water outlet pipe is connected to the lower part of the water bucket in a penetrating way, a third guide sleeve is welded between the upper parts of the second guide sleeves, a pressurizing plate is arranged in the third guide sleeve in a sliding mode, a water outlet switch is arranged on the upper part of the pressurizing plate and is matched with the water outlet pipe in a sliding mode, a push column is fixedly connected to the top end of the drilling assembly, and the push column is matched with the pressurizing plate in a contact mode.

More preferably, the bottom of the bottom plate is symmetrically and fixedly connected with guide rods, an extrusion plate is arranged between the two guide rods in a sliding mode, the extrusion plate is matched with the bottom plate in a sliding mode, the two guide rods are sleeved with second compression springs, two ends of each second compression spring are respectively connected to the bottom plate and the extrusion plate, and pull plates are symmetrically welded on two sides of the extrusion plate.

More preferably, the middle part of the top of the bottom plate is provided with a fixed plate, the two parts of the fixed plate are welded with fourth guide sleeves, positioning plates are arranged in the two fourth guide sleeves in a sliding mode, the two positioning plates are sleeved with third compression springs, and the two ends of each third compression spring are respectively connected to the fourth guide sleeve and the positioning plate.

More preferably, the bottom of the bottom plate is fixedly connected with a fifth guide sleeve, an elastic clamping plate is slidably arranged in the fifth guide sleeve, a sixth guide sleeve is fixedly connected to the top of the fixed plate, an elastic push plate is slidably arranged in the sixth guide sleeve, an elastic rotating rod is fixedly connected to the end part of the elastic push plate, second rotating sleeves are rotatably arranged on two sides of the middle part of the elastic rotating rod, a seventh guide sleeve is welded on the lower part of the elastic clamping plate, a pushing plate is slidably arranged in the seventh guide sleeve, and the lower part of the elastic rotating rod is slidably matched with the pushing plate.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the pushing mechanism is arranged and matched with the drilling mechanism, so that the spaced pushing and drilling work of the glasses frame can be realized;

2. the cooling mechanism is matched with the drilling mechanism, so that a proper amount of tap water can be sprayed onto the drilling assembly to quickly cool, and then a worker can quickly take out the glasses frame after drilling;

3. the fixing mechanism is matched with the collecting mechanism, so that the phenomenon that the extruding plate suddenly bounces upwards to influence the drilling efficiency of the glasses frame is avoided;

4. the positioning mechanism is matched with the bottom plate, so that the stability of the glasses frame can be effectively improved, and the shaking of the glasses frame in the drilling process is reduced.

Drawings

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

Fig. 2 is a schematic perspective view of a pushing mechanism of the present invention.

Fig. 3 is a schematic perspective view of the drilling mechanism of the present invention.

Fig. 4 is a schematic perspective view of a cooling mechanism according to the present invention.

Fig. 5 is a schematic perspective view of the fixing mechanism of the present invention.

Fig. 6 is a schematic perspective view of the positioning mechanism of the present invention.

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

Wherein the above figures include the following reference numerals: 1-bracket, 2-bottom plate, 3-cylinder, 4-pushing mechanism, 41-first guide sleeve, 42-push rod, 43-extension spring, 5-drilling mechanism, 51-second guide sleeve, 52-drilling component, 53-first compression spring, 54-first pressing plate, 55-first rotating sleeve, 56-rotating shaft, 57-roller, 58-elastic block, 59-pull rope, 6-cooling mechanism, 61-bucket, 62-water outlet pipe, 63-water outlet switch, 64-third guide sleeve, 65-compression plate, 66-push column, 7-fixing mechanism, 71-guide rod, 72-compression plate, 73-second compression spring, 74-pull plate, 8-positioning mechanism, 81-fixing plate, 82-fourth guide sleeve, 83-positioning plate, 84-third compression spring, 9-collecting mechanism, 91-fifth guide sleeve, 92-elastic clamping plate, 93-sixth guide sleeve, 94-elastic push plate, 95-second rotating sleeve, 96-elastic rotary rod, 97-seventh guide sleeve, 98-push plate.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-7, the present invention provides a technical solution: the semi-automatic drilling equipment for the customized glasses frame comprises a bracket 1, a bottom plate 2, an air cylinder 3, a pushing mechanism 4, a first guide sleeve 41, a push rod 42, an extension spring 43, a drilling mechanism 5, a second guide sleeve 51, a drilling assembly 52, a first compression spring 53, a first pressing plate 54, a first rotating sleeve 55, a rotating shaft 56, a roller 57, an elastic block 58, a pull rope 59, a cooling mechanism 6, a water bucket 61, a water outlet pipe 62, a water outlet switch 63, a third guide sleeve 64, a pressurizing plate 65, a pushing post 66, a fixing mechanism 7, a guide rod 71, a pressing plate 72, a second compression spring 73, a pulling plate 74, a positioning mechanism 8, a fixing plate 81, a fourth guide sleeve 82, a positioning plate 83, a third compression spring 84, a collecting mechanism 9, a fifth guide sleeve 91, an elastic clamping plate 92, a sixth guide sleeve 93, an elastic push plate 94, a second rotating sleeve 95, an elastic rotating rod 96, a seventh guide sleeve 97 and a pushing plate 98, wherein the front side of the bracket 1 is fixedly connected with the bottom plate 2 through bolts, the air cylinder 3 is arranged on the bottom plate 2, the pushing mechanism 4 is connected with the pushing mechanism 4, the telescopic rod 5 is arranged on the bottom plate 2.

The middle part of the front side of the bottom plate 2 is fixedly connected with a first guide sleeve 41, a push rod 42 is slidably arranged in the first guide sleeve 41, the front end of the push rod 42 is connected with a telescopic rod of the air cylinder 3, an extension spring 43 is sleeved on the push rod 42, and two ends of the extension spring 43 are respectively connected to the first guide sleeve 41 and the push rod 42.

The middle part of the rear side of the bottom plate 2 is symmetrically welded with second guide sleeves 51, a drilling assembly 52 is slidably arranged between the two second guide sleeves 51, a first compression spring 53 is sleeved on the drilling assembly 52, two ends of the first compression spring 53 are respectively connected to the second guide sleeves 51 and the drilling assembly 52, a first pressing plate 54 is fixedly connected to the rear end of the upper part of the drilling assembly 52, first rotating sleeves 55 are symmetrically arranged left and right on the rear side of the bottom plate 2, a rotating shaft 56 is rotatably arranged between the two first rotating sleeves 55, rollers 57 are fixedly connected to two ends of the rotating shaft 56, elastic blocks 58 are slidably arranged at the left and right parts of the front side of the bottom plate 2, the elastic blocks 58 are in contact fit with the push rods 42, pull ropes 59 are connected to the left and right sides of the bottom of the first pressing plate 54, and the ends of the two pull ropes 59 bypass the rollers 57 and are connected to the corresponding elastic blocks 58.

The water bucket 61 is arranged in the middle of the rear side of the bottom plate 2, the water outlet pipe 62 is connected to the lower portion of the water bucket 61 in a penetrating manner, the third guide sleeve 64 is welded between the upper portions of the second guide sleeves 51, the pressurizing plate 65 is arranged in a sliding manner in the third guide sleeve 64, the water outlet switch 63 is arranged on the upper portion of the rear side of the pressurizing plate 65, the water outlet switch 63 is in sliding fit with the water outlet pipe 62, the pushing column 66 is fixedly connected to the top end of the drilling assembly 52, and the pushing column 66 is in contact fit with the pressurizing plate 65.

The bottom of the bottom plate 2 is symmetrically and fixedly connected with guide rods 71, an extrusion plate 72 is slidably arranged between the two guide rods 71, the extrusion plate 72 is slidably matched with the bottom plate 2, the two guide rods 71 are respectively sleeved with a second compression spring 73, two ends of the second compression spring 73 are respectively connected to the bottom plate 2 and the extrusion plate 72, and pull plates 74 are symmetrically welded on the left side and the right side of the extrusion plate 72.

The middle part of the rear side of the top of the bottom plate 2 is provided with a fixed plate 81, the left and right parts of the front side of the fixed plate 81 are welded with fourth guide sleeves 82, positioning plates 83 are arranged in the two fourth guide sleeves 82 in a sliding mode, the two positioning plates 83 are sleeved with third compression springs 84, and two ends of each third compression spring 84 are respectively connected to the fourth guide sleeves 82 and the positioning plates 83.

The front side of the bottom plate 2 is fixedly connected with a fifth guide sleeve 91, an elastic clamping plate 92 is arranged in the fifth guide sleeve 91 in a sliding manner, a sixth guide sleeve 93 is fixedly connected to the top of the fixed plate 81, an elastic push plate 94 is arranged in the sixth guide sleeve 93 in a sliding manner, an elastic rotating rod 96 is fixedly connected to the rear end of the elastic push plate 94, second rotating sleeves 95 are rotatably arranged on two sides of the middle of the elastic rotating rod 96, a seventh guide sleeve 97 is welded to the lower portion of the elastic clamping plate 92, a pushing plate 98 is arranged in the seventh guide sleeve 97 in a sliding manner, and the lower portion of the elastic rotating rod 96 is in sliding fit with the rear side of the pushing plate 98.

When the worker needs to drill the glasses frame, the worker firstly needs to put the glasses frame on the bottom plate 2, when the glasses frame is located above the bottom plate 2, the worker needs to start the air cylinder 3 to stretch and retract, when the air cylinder 3 contracts, the telescopic rod of the air cylinder 3 can drive the pushing mechanism 4 to move to the rear side, the pushing mechanism 4 can push the glasses frame to move to the rear side on the bottom plate 2, when the glasses frame moves to the rear side to be in contact with the drilling mechanism 5, the drilling mechanism 5 can slide downwards, the drilling mechanism 5 can drill the glasses frame, when the air cylinder 3 stretches, the telescopic rod of the air cylinder 3 can drive the pushing mechanism 4 to move to the front side, the pushing mechanism 4 can push the glasses frame to move to the front side, when the glasses frame moves to be temporarily stopped to be in contact with the drilling mechanism 5, the drilling mechanism 5 can slide upwards for resetting, the drilling mechanism 5 can temporarily stop the glasses frame to perform the drilling operation, and then when the worker still needs to continue to drill the glasses frame, the operation can be repeated by the worker to perform the drilling operation on the glasses frame.

The process that the worker manually places the glasses frame below the drilling mechanism 5 is complicated, so that the worker needs to place the glasses frame on the bottom plate 2 at intervals, when the telescopic rod of the air cylinder 3 is contracted, the telescopic rod of the air cylinder 3 can drive the push rod 42 to slide backward in the first guide sleeve 41, the push rod 42 can drive the glasses frame to move backward on the bottom plate 2, when the glasses frame moves backward to be positioned below the drilling mechanism 5, the telescopic rod of the air cylinder 3 can stretch, the telescopic rod of the air cylinder 3 can drive the push rod 42 to slide forward in the first guide sleeve 41 for resetting, if the worker temporarily does not need to push the glasses frame below the drilling mechanism 5, after the telescopic rod of the air cylinder 3 is reset, the worker needs to close the air cylinder 3, the drilling mechanism is deformed adaptively by the extension spring 43 in the process, and when the worker still needs to push the glasses frame below the drilling mechanism 5, the worker needs to repeat the operation again, so that the device realizes the work that the worker pushes the glasses frame to be positioned below the drilling mechanism 5 at intervals.

When the push rod 42 slides backwards, the push rod 42 pushes the glasses frame to move backwards, when the glasses frame moves backwards until the elastic blocks 58 are contacted, the glasses frame downwards presses the elastic blocks 58, the elastic blocks 58 are compressed, after the glasses frame passes over the elastic blocks 58, the elastic blocks 58 are reset, the elastic blocks 58 spring upwards, when the glasses frame moves backwards to be positioned below the drilling assembly 52, the telescopic rod of the air cylinder 3 stretches, the telescopic rod of the air cylinder 3 drives the push rod 42 to move forwards, when the push rod 42 moves forwards to be contacted with the elastic blocks 58, the push rod 42 drives the elastic blocks 58 to slide forwards in the bottom plate 2, the elastic blocks 58 are compressed, the elastic blocks 58 slide forwards to drive the pull ropes 59 to move forwards, the pull ropes 59 are tensioned through the rollers 57, the rollers 57 rotate according to practical conditions, the rollers 57 rotate to drive the rotating shafts 56 to rotate in the first rotating sleeves 55, the pull rope 59 drives the first pressing plate 54 to move downwards, the first pressing plate 54 moves downwards to drive the drilling assembly 52 to slide downwards in the second guide sleeve 51, the first compression spring 53 is compressed, when the drilling assembly 52 slides downwards to be in contact with the glasses frame, the drilling assembly 52 can drill the glasses frame, a worker needs to manually take out the drilled glasses frame, the elastic block 58 slides forwards until the glasses frame cannot slide forwards any more, the elastic block 58 can cross the push rod 42, so that the push rod 42 can move forwards continuously, the elastic block 58 is reset, the elastic block 58 can slide backwards to reset, the first compression spring 53 is reset to drive the pull rope 59 to move backwards, the pull rope 59 is loosened through the roller 57, the first compression spring 53 pushes the drilling assembly 52 to slide upwards in the second guide sleeve 51, the drilling assembly 52 moves upwards to drive the first pressing plate 54 to move upwards to reset, when the resilient block 58 is slid again to the front, the drilling assembly 52 is slid again downwardly to drill the eyeglass frame.

Because the drilling assembly 52 can generate a large amount of heat when drilling for a long time, a worker needs to take out the spectacle frame after drilling, firstly, a proper amount of tap water is poured into the water barrel 61, when the drilling assembly 52 slides downwards, the drilling assembly 52 can drive the push column 66 to move downwards, when the push column 66 moves downwards to be in contact with the pressurizing plate 65, the pressurizing plate 65 slides backwards in the third guide sleeve 64, the pressurizing plate 65 is compressed, the pressurizing plate 65 slides backwards and can drive the water outlet switch 63 to move backwards, the water outlet switch 63 moves backwards and can temporarily stop the water outlet pipe 62, at the moment, a proper amount of tap water in the water barrel 61 can be sprayed onto the drilling assembly 52 through the water outlet pipe 62, the tap water can perform quick cooling operation on the drilling assembly 52, when the drilling assembly 52 slides upwards, the push column 66 moves upwards and temporarily stops contacting with the pressurizing plate 65, the pressurizing plate 65 resets, the pressurizing plate 65 slides forwards in the third guide sleeve 64, the pressurizing plate 65 slides forwards and drives the water outlet switch 63 to move forwards, at the moment, a proper amount of tap water in the water barrel 61 can be sprayed onto the water barrel 62 again, and then a proper amount of tap water in the water barrel 61 can be sprayed into the water barrel 62, and then the water barrel can be temporarily stopped from moving forwards, and the water outlet pipe 62 can be quickly sprayed into the water barrel 62.

In order to avoid that the movement of the glasses frame may affect the drilling effect in the process of drilling, so that when the glasses frame is located below the drilling mechanism 5, a worker needs to push the pull plate 74 upwards, the pull plate 74 moves upwards to drive the extrusion plate 72 to slide upwards on the guide rod 71, the second compression spring 73 is compressed, the extrusion plate 72 moves upwards to penetrate out of the bottom plate 2, then the extrusion plate 72 performs limiting work on the front side of the glasses frame, when the worker does not need to perform limiting work on the front side of the glasses frame temporarily, the worker needs to quickly loosen the pull plate 74, the second compression spring 73 resets, the second compression spring 73 pushes the extrusion plate 72 to slide downwards on the guide rod 71, after the extrusion plate 72 moves downwards to reset, the extrusion plate 72 temporarily stops limiting the front side of the glasses frame, and if the worker still needs to continue to perform limiting work on the glasses frame, the worker repeats the operation again, and the device can limit the glasses frame so that the movement in the process of drilling can be avoided.

In order to further increase the stability of the glasses frame, when the glasses frame moves forward to be close to the positioning plate 83, the glasses frame pushes the positioning plate 83 to slide outwards in the fourth guide sleeve 82, the third compression spring 84 is compressed, after the glasses frame is positioned between the positioning plates 83, the third compression spring 84 is reset, the third compression spring 84 pushes the positioning plate 83 to slide inwards to reset in the fourth guide sleeve 82, so that the middle of the glasses frame can be fixed by the positioning plate 83, the stability of the glasses frame is effectively increased, if a worker needs to directly take out the glasses frame after drilling, and when the worker still needs to continue to increase the stability of the glasses frame, the worker repeats the operation again, and the equipment can effectively increase the stability of the glasses frame.

The extruding plate 72 may pop up suddenly, so the glasses frame may have a force of moving forward before being clamped, the glasses frame may push the elastic push plate 94 to slide forward in the sixth guide sleeve 93, the elastic push plate 94 is stretched, the elastic push plate 94 may drive the second rotating sleeve 95 and the elastic rotating rod 96 to move forward, the elastic rotating rod 96 may slide forward in the pushing plate 98, the elastic rotating rod 96 may make the pushing plate 98 slide forward in the seventh guide sleeve 97, the pushing plate 98 slides forward and drives the elastic clamping plate 92 to slide forward in the fifth guide sleeve 91, the elastic clamping plate 92 is stretched, at this time, the elastic clamping plate 92 temporarily stops the extruding plate 72, the extruding plate 72 may slide upward, after the glasses frame is clamped, the elastic clamping plate 92 is reset, the elastic clamping plate 92 slides backward in the fifth guide sleeve 91, the elastic clamping plate 92 slides backward and drives the pushing plate 98 to slide backward in the seventh guide sleeve 97, the pushing plate 98 moves the second rotating sleeve 95 and the elastic rotating rod 96 to slide backward, the elastic clamping plate 96 moves backward, the elastic clamping plate 92 slides forward in the fifth guide sleeve 91, at this time, and the elastic clamping plate 92 slides backward in the sixth guide sleeve 94, and the elastic clamping plate 94 is fixed to the glasses frame is prevented from moving forward suddenly.

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

Claims (5)

1. Semi-automatic drilling equipment of customization spectacle-frame, including support (1), bottom plate (2) and cylinder (3), its characterized in that: a bottom plate (2) is fixedly connected above the brackets (1), air cylinders (3) are connected between the brackets (1) through bolts, a pushing mechanism (4) is arranged on the bottom plate (2), the pushing mechanism (4) is connected with telescopic rods of the air cylinders (3), a drilling mechanism (5) is arranged on the bottom plate (2), and a cooling mechanism (6) is arranged on the bottom plate (2); the middle part of the bottom plate (2) is fixedly connected with a first guide sleeve (41), a push rod (42) is arranged in the first guide sleeve (41) in a sliding manner, the end part of the push rod (42) is connected with a telescopic rod of the air cylinder (3), an extension spring (43) is sleeved on the push rod (42), and two ends of the extension spring (43) are respectively connected to the first guide sleeve (41) and the push rod (42); the middle part of the bottom plate (2) is symmetrically welded with second guide sleeves (51), a drilling assembly (52) is slidably arranged between the two second guide sleeves (51), a first compression spring (53) is sleeved on the drilling assembly (52), two ends of the first compression spring (53) are respectively connected to the second guide sleeves (51) and the drilling assembly (52), a first pressing plate (54) is fixedly connected to the upper part of the drilling assembly (52), first rotating sleeves (55) are symmetrically arranged on the bottom plate (2), rotating shafts (56) are rotatably arranged between the two first rotating sleeves (55), rollers (57) are fixedly connected to two ends of each rotating shaft (56), elastic blocks (58) are slidably arranged at two parts of the bottom plate (2) and are in contact fit with push rods (42), pull ropes (59) are connected to two sides of the bottom of the first pressing plate (54), and the end parts of the two pull ropes (59) bypass the corresponding elastic blocks (58); the water barrel (61) is arranged in the middle of the bottom plate (2), the water outlet pipe (62) is connected to the lower portion of the water barrel (61) in a penetrating manner, a third guide sleeve (64) is welded between the upper portions of the second guide sleeves (51), a pressurizing plate (65) is arranged in the third guide sleeve (64) in a sliding manner, a water outlet switch (63) is arranged on the upper portion of the pressurizing plate (65), the water outlet switch (63) is matched with the water outlet pipe (62) in a sliding manner, a pushing column (66) is fixedly connected to the top end of the drilling assembly (52), and the pushing column (66) is matched with the pressurizing plate (65) in a contact manner.

2. A custom eyeglass frame semiautomatic drilling device as described in claim 1, wherein: guide rods (71) are symmetrically and fixedly connected to the bottom of the bottom plate (2), an extrusion plate (72) is slidably arranged between the two guide rods (71), the extrusion plate (72) is slidably matched with the bottom plate (2), second compression springs (73) are respectively sleeved on the two guide rods (71), two ends of each second compression spring (73) are respectively connected to the bottom plate (2) and the extrusion plate (72), and pull plates (74) are symmetrically welded on two sides of the extrusion plate (72).

3. A custom eyeglass frame semiautomatic drilling device as described in claim 2, wherein: the middle part at the top of the bottom plate (2) is provided with a fixed plate (81), two parts of the fixed plate (81) are welded with fourth guide sleeves (82), positioning plates (83) are arranged in the two fourth guide sleeves (82) in a sliding mode, third compression springs (84) are sleeved on the two positioning plates (83), and two ends of each third compression spring (84) are respectively connected to the fourth guide sleeves (82) and the positioning plates (83).

4. A custom eyeglass frame semiautomatic drilling device according to claim 3, characterized in that: the bottom plate (2) bottom rigid coupling has fifth guide pin bushing (91), fifth guide pin bushing (91) sliding is equipped with elastic clamping plate (92), fixed plate (81) top rigid coupling has sixth guide pin bushing (93), sixth guide pin bushing (93) sliding is equipped with elastic push pedal (94), elastic push pedal (94) tip rigid coupling has elastic bull stick (96), elastic bull stick (96) middle part both sides rotation are equipped with second change cover (95), elastic clamping plate (92) lower part welding has seventh guide pin bushing (97), seventh guide pin bushing (97) sliding is equipped with push plate (98), elastic bull stick (96) lower part and push plate (98) sliding fit.

5. A custom eyeglass frame semi-automatic drilling apparatus according to claim 4, wherein: the fixing plate (81) is rectangular in shape.

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