CN114905639A

CN114905639A - Continuous cutting device

Info

Publication number: CN114905639A
Application number: CN202210617404.XA
Authority: CN
Inventors: 张弘博; 高萍; 雷代军
Original assignee: Shenzhen Enze Rui Display Technology Co ltd
Current assignee: Shenzhen Enze Rui Display Technology Co ltd
Priority date: 2022-06-01
Filing date: 2022-06-01
Publication date: 2022-08-16
Anticipated expiration: 2042-06-01
Also published as: CN114905639B

Abstract

The application relates to the field of glass cutting technology, in particular to a continuous cutting device, which comprises a device main body; the device main body is provided with two parallel polarizing strips for erecting glass for cutting; the glass is placed above the polarizing strip, so that the friction between the glass and the device body in the process of sliding to the cutting position can be reduced, and the abrasion of the glass is reduced; the device main part is equipped with translation actuating mechanism to the device main part still is equipped with first bar hole and second bar hole, first bar hole one end is located between two polarisation strips, and the other end is located the opposite side of one of them polarisation strip, and the device main part still is equipped with the second bar hole, first bar hole and second bar hole parallel arrangement, after once the cutting is accomplished, translation actuating mechanism can pass first bar hole and second bar hole butt glass, thereby lift glass and slide along first bar hole length direction.

Description

Continuous cutting device

Technical Field

The application relates to the field of glass cutting technology, in particular to a continuous cutting device.

Background

The glass has the advantages of high transparency and good permeability, so that the conventional mobile phone screen, computer screen or television screen and the like are all glass screens. When the glass screen is manufactured, a cutting device special for cutting the glass screen is needed to cut the glass screens with different sizes, and then the glass screens are respectively used for mobile phones, computers, televisions and the like.

At present, some cutting devices for producing glass screens on the market place glass on a cutting device operating platform, slide the glass to a cutting position for cutting, and slide the glass for multiple times at the cutting position for multiple times of cutting. There is often some wear of the glass during the multiple cuts.

Disclosure of Invention

In order to reduce glass's wearing and tearing, guarantee product quality, the application provides a continuous cutting device.

The application provides a continuous cutting device adopts following technical scheme:

a continuous cutting apparatus includes an apparatus main body; the device main body is provided with two parallel polarizing strips for erecting glass for cutting; the device main body is provided with a translation driving mechanism; the device main body is provided with a first strip-shaped hole; one end of the first strip-shaped hole is positioned between the two polarizing strips, and the other end of the first strip-shaped hole is positioned on the other side of one of the polarizing strips; the device main body is also provided with a second strip-shaped hole; the first strip-shaped hole and the second strip-shaped hole are arranged in parallel; the translation driving mechanism penetrates through the first strip-shaped hole and the second strip-shaped hole and is used for supporting the glass so as to drive the glass to translate.

By adopting the technical scheme, the glass is placed on the parallel light deflecting strips, the glass is pushed to slide to the cutting position, the abrasion of the glass in the sliding process is effectively reduced, and meanwhile, the glass is separated from the device main body by the light deflecting strips, so that the glass is prevented from being scratched because glass scraps generated in the cutting process slide on the surface of the device main body; after the position that glass is located between two polarisation strips is cut, glass carries out once cutting back promptly, and translation actuating mechanism passes first bar hole and second bar hole and supports glass, and translation actuating mechanism holds up glass promptly and carries out the translation to erect glass again and carry out the next cutting above two polarisation strips, reduced the friction between glass and the polarisation strip at the removal in-process, thereby reduce glass's wearing and tearing, improve glass products' quality.

Preferably, the translation driving mechanism comprises a first supporting rod and a second supporting rod; the first supporting rod and the second supporting rod are arranged in parallel; the first supporting rod is fixedly connected with the second supporting rod; the end part of the first support rod is provided with a first support block which is vertical to the first support rod; the first supporting block penetrates through the first strip-shaped hole; a second supporting block perpendicular to the second supporting rod is arranged at the end part of the second supporting rod; the second supporting block penetrates through the second strip-shaped hole; the first supporting block and the second supporting block are arranged oppositely.

By adopting the technical scheme, the first support rod and the second support rod are arranged in parallel and fixedly connected, so that the first support rod and the second support rod can synchronously translate in the same direction; the end part of the first supporting rod is provided with a first supporting block, the first supporting block is perpendicular to the first supporting rod, the end part of the second supporting rod is provided with a second supporting block, the second supporting block is perpendicular to the second supporting rod, after the continuous cutting device performs cutting for one time, the first supporting rod and the second supporting rod are moved upwards to one ends, close to the glass, of the first supporting block and one ends, close to the glass, of the second supporting block to abut against the glass and support the glass, then the first supporting rod and the second supporting rod are controlled to horizontally translate, namely the first supporting block and the second supporting block synchronously translate in the same direction, so that the glass is placed above the two polarizing strips again, friction between the glass and the polarizing strips in the translation process is reduced, abrasion of the glass is reduced, the first supporting block and the second supporting block are adopted to support the glass simultaneously, and the glass can be more stable when the glass is supported.

Preferably, the translation driving mechanism further comprises a third support rod; the third support rod is arranged between the first support rod and the second support rod; the third supporting rod is arranged in parallel with the first supporting rod; the polarizing strip is provided with a through hole penetrating through the device main body; the third support rod is provided with a third support block; the third supporting block is partially arranged in the through hole in a penetrating manner; a ball is arranged on one side, far away from the third supporting rod, of the third supporting block; the ball is matched with the through hole; the third supporting block is connected with the third supporting rod in a sliding manner; the third support block can slide axially along the third support bar.

By adopting the technical scheme, the third support rod is arranged between the first support rod and the second support rod and is parallel to the first support rod and the second support rod, so that the first support rod, the second support rod and the third support rod can synchronously translate in the same direction; one end of the third supporting block is connected to the third supporting rod in a sliding mode, the other end of the third supporting block penetrates through the through hole in a local mode, the third supporting block abuts against the balls arranged in the through hole, after the continuous cutting device finishes one-time cutting, the first supporting rod and the second supporting rod move upwards in a translation mode to drive the third supporting rod to move upwards, the third supporting block is driven to move upwards to enable the balls to abut against the glass, the contact area between the glass and the inclined to one side strip is reduced, then the first supporting rod and the second supporting rod are controlled to drive the third supporting rod to move horizontally, friction between the glass and the inclined to one side strip is reduced, abrasion of the glass is reduced, and the quality of glass products is improved.

Preferably, the translation driving mechanism is provided with a motor; the motor controls the first supporting rod, the second supporting rod and the third supporting rod to move horizontally.

By adopting the technical scheme, the translation driving mechanism is provided with the motor, the motor controls the moving distances of the first supporting rod, the second supporting rod and the third supporting rod to be more accurate, the friction between the glass and the polarizing strips can be effectively reduced, and the abrasion of the glass is reduced; meanwhile, the motor is simple to operate, the complicated steps of manual operation can be reduced, manual loss caused by manual operation is reduced, time and labor are saved in motor control, and working efficiency can be effectively improved.

Preferably, the through hole is provided with a blocking ring close to the opening of the ball bearing; the diameter of the inner ring of the blocking ring is smaller than that of the ball.

By adopting the technical scheme, the blocking ring is arranged at the opening of the through hole close to the ball, and the diameter of the inner ring of the blocking ring is smaller than that of the ball, so that the possibility that the ball falls from the opening of the through hole can be reduced, and the normal work of the ball can be ensured; when the third supporting block moves upwards to force the balls to ascend, the balls can be abutted with the glass through the opening of the blocking ring so as to be in point contact with the glass, the contact area is reduced, and the abrasion is reduced.

Preferably, a first buffer layer is arranged on one side, away from the first support rod, of the first support block; and a second buffer layer is arranged on one side of the second supporting block, which is far away from the second supporting rod.

Through adopting above-mentioned technical scheme, one side that first supporting shoe is close to glass sets up first buffer layer, and one side that the second supporting shoe is close to glass sets up the second buffer layer, moves to butt glass on first supporting shoe of control and second supporting shoe when, and first supporting shoe and second supporting shoe are to glass's impact force during the ability reduction butt to reduce the possibility that glass damaged, improve glass products' quality.

Preferably, the third support rod is provided with a third strip-shaped hole along the axial direction of the third support rod; a clamping strip is arranged on one side of the inner peripheral wall of the third strip-shaped hole along the axial direction; the third supporting block is provided with a sliding groove matched with the clamping strip.

By adopting the technical scheme, the third support rod is provided with a third strip-shaped hole along the axial direction of the third support rod, and the third support block is inserted into the third strip-shaped hole by embedding the clamping strip into the sliding groove; when the third supporting rod horizontally slides, the third supporting block partially penetrates through the through hole, namely the through hole blocks the sliding of the third supporting block, so that the clamping strip and the sliding groove are forced to slide relatively, the first supporting block and the second supporting block can synchronously translate, and the influence of the third supporting block on the translation of the first supporting block and the second supporting block is reduced; meanwhile, the clamping strips are mutually embedded with the sliding grooves, so that the third supporting block is stably installed, the possibility of separation of the third supporting block is reduced, and the working efficiency of the continuous cutting device is improved.

Preferably, a third spring plunger is arranged at the bottom of the sliding groove; and one end of the clamping strip is provided with a limiting groove matched with the third spring plunger for positioning the moving position of the sliding groove.

Through adopting above-mentioned technical scheme, set up the third spacing groove with third spring plunger assorted at the card strip, at the in-process that slides of third supporting shoe, through the cooperation of third spring plunger and third spacing groove, carry out the location pause to the third supporting shoe to the location pause of control third bracing piece, through the synchronous translation relation of first bracing piece, second bracing piece and third bracing piece, make first supporting shoe and second supporting shoe fixed point pause, reduce the impact of first supporting shoe and second supporting shoe to the bar of partially becoming striated, thereby reduce the damage of bar of partially striated, practice thrift manufacturing cost.

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

1. the glass is placed on the parallel light deflecting strips, the glass is pushed to slide to a cutting position, the abrasion of the glass in the sliding process is effectively reduced, meanwhile, the glass is separated from the device main body by the light deflecting strips, and the phenomenon that glass scraps generated in the cutting process slide on the surface of the device main body to scratch the glass is reduced; after the glass is cut at a position between the two polarizing strips, namely the glass is cut for one time, the translation driving mechanism penetrates through the first strip-shaped hole and the second strip-shaped hole to abut against the glass, namely the translation driving mechanism supports the glass to translate, and the glass is erected above the two polarizing strips again to be cut for the next time, so that the friction between the glass and the polarizing strips is reduced in the moving process, the abrasion of the glass is reduced, and the quality of a glass product is improved;

2. the first support rod and the second support rod are arranged in parallel and fixedly connected, so that the first support rod and the second support rod can synchronously translate in the same direction; the end parts of the first supporting rods are provided with first supporting blocks, the first supporting blocks are perpendicular to the first supporting rods, the end parts of the second supporting rods are provided with second supporting blocks, the second supporting blocks are perpendicular to the second supporting rods, after the continuous cutting device performs primary cutting, the first supporting rods and the second supporting rods are simultaneously moved upwards to the ends, close to the glass, of the first supporting blocks and the second supporting blocks to abut against the glass and support the glass, then the first supporting rods and the second supporting rods are controlled to perform horizontal translation, namely the first supporting blocks and the second supporting blocks perform synchronous same-direction translation, so that the glass is placed above the two polarizing strips again, friction between the glass and the polarizing strips in the translation process is reduced, and abrasion of the glass is reduced;

3. the third support rod is arranged between the first support rod and the second support rod and is parallel to the first support rod and the second support rod, so that the first support rod, the second support rod and the third support rod can synchronously translate in the same direction; one end of the third supporting block is connected to the third supporting rod in a sliding mode, the other end of the third supporting block penetrates through the through hole in a local mode, the third supporting block abuts against the balls arranged in the through hole, after the continuous cutting device finishes one-time cutting, the first supporting rod and the second supporting rod move upwards in a translation mode to drive the third supporting rod to move upwards, the third supporting block is driven to move upwards to enable the balls to abut against the glass, the contact area between the glass and the inclined to one side strip is reduced, then the first supporting rod and the second supporting rod are controlled to drive the third supporting rod to move horizontally, friction between the glass and the inclined to one side strip is reduced, abrasion of the glass is reduced, and the quality of glass products is improved.

Drawings

Fig. 1 is a schematic structural diagram of embodiment 1 of the present application.

Fig. 2 is a schematic structural diagram of embodiment 1 of the present application at different angles, and mainly shows the installation position of the translation driving mechanism.

Fig. 3 is a knot exploded view of the translation drive mechanism of embodiment 1 of the present application.

Fig. 4 is a sectional view of embodiment 1 of the present application.

Fig. 5 is an exploded view of the translation drive mechanism of embodiment 2 of the present application.

Fig. 6 is a sectional view of embodiment 2 of the present application.

Description of reference numerals:

1. a device main body;

11. a polarizing strip; 111. a through hole; 112. a barrier ring;

12. a translation drive mechanism; 121. a first support bar; 1211. a first bar-shaped groove; 1212. a first slide bar; 1213. a first groove; 1214. a first spring plunger; 1215. a first limit groove; 122. a second support bar; 1221. a second strip groove; 1222. a second slide bar; 1223. a second groove; 1224. a second spring plunger; 1225. a second limit groove; 123. a first support block; 1231. a first buffer layer; 124. a second support block; 1241. a second buffer layer; 125. a third support bar; 1251. a third strip-shaped hole; 1252. clamping the strip; 1253. a chute; 1254. a third spring plunger; 1255. a third limiting groove; 126. a third support block; 127. a ball bearing; 128. a motor;

13. a first bar-shaped hole;

14. and a second strip-shaped hole.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The glass has the advantages of high transparency and good permeability, so that the conventional mobile phone screen, computer screen or television screen and the like are made of glass screens, and when the glass screens are manufactured, the glass screens with different sizes are cut by using a special cutting device for cutting the glass screens, and then the glass screens are respectively used for mobile phones, computers, televisions and the like.

At present, some cutting devices for glass screen production in the market place glass on the cutting device operation panel, then slide glass to the cutting position and cut to slide many times at the cutting position and cut many times, often in the in-process of cutting many times, glass can have certain wearing and tearing.

Example 1

The embodiment of the application discloses continuous cutting device.

Referring to fig. 1, a continuous cutting apparatus includes an apparatus body 1; the device main body 1 is provided with polarizing strips 11 which are arranged in parallel and used for erecting glass for cutting; the glass is placed above the polarizing strip 11, so that the friction between the glass and the device main body 1 in the process of sliding to the cutting position can be reduced, and the abrasion of the glass is reduced; and when cutting glass, the glass scraps can be scattered on the surface of the device main body 1, so that the possibility of direct contact with the glass is reduced, and the abrasion of the glass is further reduced;

referring to fig. 2 and 3, the apparatus body 1 is provided with a translation drive mechanism 12; the translation driving mechanism 12 comprises a first supporting rod 121, a second supporting rod 122 and a third supporting rod 125, wherein the first supporting rod 121, the second supporting rod 122 and the third supporting rod 125 are parallel in pairs; the translation driving mechanism 12 is further provided with a motor 128, and the motor 128 controls the first supporting rod 121, the second supporting rod 122 and the third supporting rod 125 to translate synchronously, so that time and labor are saved, and the working efficiency is improved.

Referring to fig. 1 and 3, in the embodiment of the present application, two ends of a first support rod 121 are both provided with a first support block 123, two ends of a second support rod 122 are both provided with a second support block 124, and the device body 1 is provided with a first strip-shaped hole 13 and a second strip-shaped hole 14, one end of the first strip-shaped hole 13 is located between two polarization strips 11, the other end of the first strip-shaped hole 13 is located at the other side of one of the polarization strips 11, the device body 1 is further provided with a second strip-shaped hole 14 opposite to the first strip-shaped hole 13, the first strip-shaped hole 13 is further parallel to the second strip-shaped hole 14, after one cutting is completed, the motor 128 controls the first support rod 121 and the second support rod 122 to move upward, so that the first support block 123 can abut against the glass through the first strip-shaped hole 13, and the second support block 124 can abut against the glass through the second strip-shaped hole 14, so that the glass is lifted and slides along the length direction of the first strip-shaped hole 13; a first buffer layer 1231 is disposed on the upper surface of the first support block 123; the upper surface of the second supporting block 124 is provided with a second buffer layer 1241, and when the first supporting block 123 and the second supporting block 124 abut against glass, the first buffer layer 1231 and the second buffer layer 1241 can reduce the impact of the first supporting block 123 and the second supporting block 124 on the glass, so that the damage to the glass is reduced, and the quality of glass products is ensured.

In the embodiment of the present application, each of the light deflecting strips 11 has a through hole 111, the through hole 111 penetrates through the upper surface of the device body 1, the third supporting rod 125 has a third supporting block 126 partially penetrating through the through hole 111, then the third supporting block 126 is slidably connected to the third supporting rod 125, and a ball 127 is disposed on a side of the third supporting block 126 away from the third supporting rod 125; in the embodiment of the present application, taking the two third supporting blocks 126 and the two balls 127 as an example, the balls 127 are disposed in the through holes 111 of the two polarizing strips 11, and the openings of the two through holes 111 are respectively provided with a blocking ring 112, the inner ring diameter of the blocking ring 112 is smaller than the diameter of the balls 127, so as to block the balls 127 from separating from the through holes 111, and ensure the normal operation of the balls 127; after the continuous cutting device finishes one cutting, the motor 128 controls the first support rod 121, the second support rod 122 and the third support rod 125 to move upwards, so that the first support block 123 and the second support block 124 move upwards to abut against the glass, meanwhile, the third support block 126 moves upwards to push the ball 127 to move upwards to the ball 127 to abut against the glass, then the motor 128 controls the first support rod 121, the second support rod 122 and the third support rod 125 to horizontally move, the ball 127 makes point contact with the glass, the contact area between the glass and the polarizing strip 11 is reduced, and accordingly abrasion of the glass is reduced.

Referring to fig. 3 and 4, the third support rod 125 is provided with a third strip-shaped hole 1251 along the axial direction of the third support rod 125, two sides of the inner peripheral wall of the third strip-shaped hole 1251 are respectively provided with a clamping strip 1252 along the axial direction of the third strip-shaped hole 1251, and then the bottom of the third support block 126 is provided with a sliding groove 1253 matched with the clamping strip 1252, so that the third support block 126 is more stably mounted by the mutual embedding of the clamping strip 1252 and the clamping groove, the possibility that the third support block 126 is separated from the third support rod 125 is reduced, and the normal operation of the translation drive mechanism 12 is ensured; a third spring plunger 1254 is further arranged at the bottom of the sliding groove 1253, a third limiting groove 1255 matched with the third spring plunger 1254 is arranged in the clamping strip 1252, and through the mutual matching of the third spring plunger 1254 and the third limiting groove 1255, in the sliding process of the third supporting block 126, the third supporting block 126 can be positioned and suspended, so that the positioning and suspension of the third supporting rod 125 are controlled, and through the synchronous translation relationship among the first supporting rod 121, the second supporting rod 122 and the third supporting rod 125, the first supporting block 123 and the second supporting block 124 are suspended at fixed points, so that the impact of the first supporting block 123 and the second supporting block 124 on the polarizing strip 11 is reduced, the damage of the polarizing strip 11 is reduced, and the production cost is saved.

The implementation principle of the continuous cutting device in the embodiment of the application is as follows: after the continuous cutting device finishes one-time cutting, the motor 128 controls the translation driving mechanism 12 to move upwards to abut against the glass, then the glass is lifted to translate in the horizontal direction, the contact area between the glass and the polarizing strips 11 is reduced, friction between the glass and the polarizing strips 11 is reduced, and abrasion of the glass is reduced.

Example 2

The embodiment of the application discloses continuous cutting device.

Referring to fig. 5 and 6, based on embodiment 1, the main difference between the embodiment of the present application and embodiment 1 is that the first support block 123 is connected to the first support rod 121 differently, the second support block 124 is connected to the second support rod 122 differently, the first support block 123 is connected to the first support rod 121 in a sliding manner, and the second support block 124 is connected to the second support rod 122 in a sliding manner, as follows:

the first support rod 121 is provided with a first strip-shaped groove 1211 along the axial direction of the first support rod 121, and the inner peripheral wall of the first strip-shaped groove 1211 is provided with a first slide bar 1212 along the axial direction of the first strip-shaped groove 1211; the first supporting block 123 is provided with a first groove 1213 matched with the first sliding strip 1212; the second support rod 122 is provided with a second strip-shaped groove 1221 along the axial direction of the second support rod 122, the inner peripheral wall of the second strip-shaped groove 1221 is provided with a second slide bar 1222 along the axial direction of the first strip-shaped groove 1211, and the second support block 124 is provided with a second groove 1223 matched with the second slide bar 1222; through the matching of the first sliding strip 1212 and the first groove 1213 and the matching of the second sliding strip 1222 and the second groove 1223, when smaller glass is cut, the first supporting block 123 and the second supporting block 124 can be adjusted to be positioned below the glass to be cut, so that the first supporting block 123 and the second supporting block 124 can support the glass to be cut more stably when the glass is lifted for translation, and the possibility of glass abrasion is reduced;

then, the first strip groove 1211 is provided with a first spring plunger 1214, and the first slide bar 1212 is provided with a first limit groove 1215 matched with the first spring plunger 1214; the second strip-shaped groove 1221 is provided with a second spring plunger 1224, the second slide bar 1222 is provided with a second limiting groove 1225 matched with the second spring plunger 1224, and through the matching of the first spring plunger 1214 and the first limiting groove 1215, the matching of the second spring plunger 1224 and the second limiting groove 1225, the first supporting block 123 and the second supporting block 124 can be positioned and suspended after sliding, and the stability of the first supporting block 123 and the second supporting block 124 is improved.

The implementation principle of the continuous cutting device in the embodiment of the application is as follows: after the continuous cutting device finishes one-time cutting, the area of the glass to be cut again is small, so that the first supporting block 123 and the second supporting block 124 can be moved until the first supporting block 123 and the second supporting block 124 are both positioned below the glass, the stability degree of the glass during translation is enhanced, and the possibility of glass abrasion is reduced.

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

Claims

1. A continuous cutting apparatus characterized by: comprises a device body (1); the device main body (1) is provided with two parallel polarizing strips (11) for erecting glass for cutting; the device main body (1) is provided with a translation driving mechanism (12); the device main body (1) is provided with a first strip-shaped hole (13); one end of the first strip-shaped hole (13) is positioned between the two light-polarizing strips (11), and the other end of the first strip-shaped hole is positioned on the other side of one light-polarizing strip (11); the device main body (1) is also provided with a second strip-shaped hole (14); the first strip-shaped holes (13) and the second strip-shaped holes (14) are arranged in parallel; the translation driving mechanism (12) penetrates through the first strip-shaped hole (13) and the second strip-shaped hole (14) and is used for supporting glass so as to drive the glass to translate.

2. A continuous cutting apparatus according to claim 1, wherein: the translation drive mechanism (12) comprises a first support bar (121) and a second support bar (122); the first supporting rod (121) and the second supporting rod (122) are arranged in parallel; the first supporting rod (121) is fixedly connected with the second supporting rod (122); a first supporting block (123) perpendicular to the first supporting rod (121) is arranged at the end part of the first supporting rod (121); the first supporting block (123) penetrates through the first strip-shaped hole (13); a second supporting block (124) perpendicular to the second supporting rod (122) is arranged at the end part of the second supporting rod (122); the second supporting block (124) penetrates through the second strip-shaped hole (14); the first supporting block (123) is arranged opposite to the second supporting block (124).

3. A continuous cutting apparatus according to claim 2, wherein: the translation drive mechanism (12) further comprises a third support bar (125); the third support bar (125) is installed between the first support bar (121) and the second support bar (122); the third supporting rod (125) is arranged in parallel with the first supporting rod (121); the polarizing strip (11) is provided with a through hole (111) penetrating through the upper surface of the device main body (1); the third support rod (125) is provided with a third support block (126); the third supporting block (126) is partially arranged through the through hole (111); a ball (127) is arranged on one side, away from the third supporting rod (125), of the third supporting block (126); the ball (127) is matched with the through hole (111); the third supporting block (126) is in sliding connection with the third supporting rod (125); the third support block (126) is axially slidable along the third support bar (125).

4. A continuous cutting apparatus according to claim 3, wherein: the translation driving mechanism (12) is provided with a motor (128); the motor (128) controls the first support rod (121), the second support rod (122) and the third support rod (125) to translate.

5. A continuous cutting apparatus according to claim 3, wherein: a blocking ring (112) is arranged on the through hole (111) close to the opening of the ball (127); the inner ring diameter of the baffle ring (112) is smaller than the diameter of the balls (127).

6. A continuous cutting apparatus according to claim 3, wherein: a first buffer layer (1231) is arranged on one side, away from the first supporting rod (121), of the first supporting block (123); and a second buffer layer (1241) is arranged on one side, away from the second supporting rod (122), of the second supporting block (124).

7. A continuous cutting apparatus according to claim 3, wherein: the third support rod (125) is provided with a third strip-shaped hole (1251) along the axial direction of the third support rod (125); a clamping strip (1252) is arranged on one side of the inner peripheral wall of the third strip-shaped hole (1251) along the axial direction; the third supporting block (126) is provided with a sliding groove (1253) matched with the clamping strip (1252).

8. A continuous cutting apparatus according to claim 7, wherein: a third spring plunger (1254) is arranged at the bottom of the sliding groove (1253); and a third limiting groove (1255) matched with the third spring plunger (1254) is formed in one end of the clamping strip (1252) and used for positioning the moving position of the sliding groove (1253).