CN112917768A

CN112917768A - Method for manufacturing and processing rubber waterstop

Info

Publication number: CN112917768A
Application number: CN202110074417.2A
Authority: CN
Inventors: 刘方; 陈登铝
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-20
Filing date: 2021-01-20
Publication date: 2021-06-08

Abstract

The invention relates to a manufacturing and processing method of a rubber waterstop, which mainly comprises the following steps: the rubber water stop belt drying equipment comprises a mounting frame, a cooling external member and a drying external member, wherein the cooling external member and the drying external member are sequentially arranged on the mounting frame from left to right, and the rubber water stop belt drying equipment can solve the following problems existing in the cooling treatment of the conventional rubber water stop belt: a: when the existing rubber waterstop is cooled, the produced water passes through a water tank directly, and the temperature of a water source is gradually increased after long-time cooling treatment, so that the cooling effect is reduced; b: when current rubber waterstop was often produced, there was the rubber burr on the surface often to after the cooling, need the manual work to clear away the rubber burr, and then very big increase staff's work load, and waste time.

Description

Method for manufacturing and processing rubber waterstop

Technical Field

The invention relates to the technical field of water stop belt preparation, in particular to a method for manufacturing and processing a rubber water stop belt.

Background

The rubber waterstop and the waterstop rubber are made by using natural rubber and various synthetic rubbers as main raw materials, adding various additives and fillers, plasticating, mixing and pressing to form the rubber waterstop and the waterstop rubber, wherein the rubber waterstop has more varieties and specifications and comprises bridge type, mountain type, P type, U type, Z type, B type, T type, H type, E type, Q type and the like, the rubber waterstop is made by using the natural rubber or various synthetic rubbers as the main raw materials and adding various additives and fillers through the processes of plasticizing, mixing, calendaring, vulcanizing and the like, the rubber waterstop can be classified into a buried rubber waterstop and a back-attached rubber waterstop according to the use condition, and has the advantages of good elasticity, wear resistance, aging resistance and tear resistance, strong adaptability and good waterproof performance, the rubber waterstop is generally used in the construction of basement exterior wall and post-pouring belt, and when the existing rubber waterstop is produced, the surface temperature is higher, the rubber water stop is not suitable for being put into use and often needs cooling treatment, and the existing rubber water stop usually needs equipment inspection, material preparation, material cooling, material drying and other steps during cooling treatment.

The existing rubber water stop belt has the following problems in cooling treatment: a: when the existing rubber waterstop is cooled, the produced water passes through a water tank directly, and the temperature of a water source is gradually increased after long-time cooling treatment, so that the cooling effect is reduced; b: when current rubber waterstop was often produced, there was the rubber burr on the surface often to after the cooling, need the manual work to clear away the rubber burr, and then very big increase staff's work load, and waste time.

Disclosure of Invention

In order to solve the problems, the invention provides a manufacturing and processing method of a rubber waterstop, which uses a rubber waterstop drying device and can solve the problems of the rubber waterstop during cooling treatment.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: a manufacturing and processing method of a rubber waterstop mainly comprises the following steps:

the method comprises the following steps: equipment inspection: before the rubber water stop drying equipment is started and the cooling and drying treatment is carried out on the rubber water stop, the running of the equipment is checked;

step two: preparing materials: manually enabling a traction belt to penetrate through the drying box, the drying sleeve and the cooling box and be connected with the produced rubber water stop belt through a connecting block, then manually injecting cooling water into the cooling box, then enabling a water delivery pump to work, and forming water circulation under the action of a condensate water tank and a connecting pipe, thereby completing material preparation operation;

step three: cooling materials: after the material preparation operation in the step two is completed, the first motor works to drive the winding rod to rotate, so that the rubber water stop is driven to be carried out in the cooling box under the action of the traction belt and the connecting block, and the purpose of cooling the rubber water stop is achieved through water circulation in the cooling box;

step four: drying materials: after the material cooling operation in the third step is completed, the rubber waterstop continuously moves to drive the rubber waterstop to slide out of the cooling box, the rubber waterstop firstly sucks water stains on the surface of the rubber waterstop through a drying sleeve under the action of the drying sleeve, then the rubber waterstop continuously moves into a drying box, the drying box works to dry the rubber waterstop, and then the rubber waterstop is wound on a winding rod under the action of a first motor, so that the drying operation of the rubber waterstop is completed;

the rubber waterstop drying equipment used in the steps comprises a mounting frame, a cooling external member and a drying external member, wherein the cooling external member and the drying external member are sequentially arranged on the mounting frame from left to right.

The cooling kit comprises support columns, a cooling box, a scraping supporting plate, a supporting plate, a rolling shaft rod, a connecting pipe, a condensate water tank and a water delivery pump, wherein the support columns are uniformly arranged on the lower end surface of the mounting frame in a welding mode, the cooling box is arranged on the mounting frame through bolts, the scraping supporting plate is arranged on the left side wall of the cooling box through bolts, the supporting plate is fixedly arranged on the right side wall of the cooling box, the rolling shaft rods are uniformly arranged in the cooling box in a rotating connection mode, the rolling shaft rods are arranged in an S shape, the connecting pipes are symmetrically arranged on the outer side of the cooling box, the lower end of the connecting pipe is connected with the condensate water tank, the condensate water tank is fixedly arranged on the lower end surface of the mounting frame, the water delivery pump is fixedly arranged on the condensate water tank, when the cooling box works, cooling water is manually injected into the cooling box, the scraping supporting plate is used for preliminarily scraping rubber burrs on the surface of the rubber water stop, and meanwhile, the rolling shaft rod is evenly arranged in the cooling box and arranged in an S shape in the cold cutting box, so that the cooling time of the rubber water stop in the cooling box can be prolonged, the cooling effect of the rubber water stop is improved, and the purpose of cooling the rubber water stop is achieved.

The drying kit comprises a drying box, a drying sleeve, an extension frame, a first motor, a rolling rod, a traction belt and a connecting block, wherein the drying box is fixedly arranged on a mounting frame, the drying sleeve is fixedly arranged on the side wall of the left end of the drying box, the extension frame is symmetrically arranged on the side wall of the right end of the drying box in a welding mode, the first motor is arranged on a motor base on the outer wall of the extension frame, the rolling rod is fixedly arranged on an output shaft of the first motor, the traction belt is fixedly arranged on the rolling rod, the connecting block is arranged on the traction belt, and when the drying kit works, the traction belt manually penetrates through the drying box, the drying sleeve and a cooling box, and is connected with the produced rubber water stop belt through a connecting block, then a first motor works to drive the rolling rod to rotate, thereby through the traction belt effect for rubber waterstop passes through the cooling box, smooths cover and drying cabinet, and twines on the coiling pole, thereby reaches the purpose that rubber waterstop cooling drying and collected.

According to a preferable technical scheme of the invention, the scraping supporting plate is provided with a waste material shovel plate in a rotating connection mode, a spring is connected between the waste material shovel plate and the scraping supporting plate, the lower end of the waste material shovel plate is abutted against an adjusting rotary column, the adjusting rotary column is connected with a rotating connecting rod, and the rotating connecting rod is arranged on the scraping supporting plate in a bolt connection mode.

As a preferred technical scheme of the invention, spring ejector rods are uniformly arranged on the rolling shaft rod through springs, and spherical balls are uniformly arranged on the surfaces of the spring ejector rods.

According to a preferable technical scheme, the drying sleeve is provided with a rotating roller column in a rotating connection mode, the surface of the rotating roller column is wrapped with a water-absorbing cotton sleeve, the inner side of the rotating roller column is provided with a pressing plate, the pressing plate is symmetrically arranged on the drying sleeve through springs, the surface of the pressing plate is provided with water-absorbing sponges, and the side wall of the drying sleeve is symmetrically provided with scraper knives.

As a preferred technical scheme of the invention, a second motor is arranged on a motor base on the side wall of the drying box, a driving bevel gear is arranged on an output shaft of the second motor, driven bevel gears which are matched with each other are arranged on the outer sides of the driving bevel gears, the driven bevel gears are arranged on the inner wall of the drying box in a manner of rotary connection, rotary fan blades are fixedly arranged on the driven bevel gears, heating blocks are fixedly arranged on the surfaces of the rotary fan blades, and air outlet holes A are uniformly formed in the inner wall of the drying box.

According to a preferred technical scheme, the connecting block is of a U-shaped structure, a lower clamping plate is fixedly mounted on the side wall of the connecting block, an upper clamping plate is arranged at the upper end of the lower clamping plate, the upper clamping plate is mounted on the connecting block in a sliding connection mode, a feeding bolt abuts against the upper end of the upper clamping plate, the feeding bolt is mounted on the connecting block in a threaded connection mode, the connecting block is uniformly provided with a stepping groove B, a rotating clamping plate is mounted on the stepping groove B in a rotating connection mode, the rotating clamping plate is uniformly provided with rectangular teeth, the rotating clamping plate is provided with a connecting bolt in a threaded connection mode, the lower end of the rotating clamping plate is provided with a material supporting plate, the material supporting plate is uniformly provided with threaded holes C matched with the connecting bolt for use, the material supporting plate is fixedly mounted on the lower end face of the connecting.

Compared with the prior art, the invention has the following advantages:

the invention can solve the following problems of the existing rubber water stop belt during cooling treatment: a: when the existing rubber waterstop is cooled, the produced water passes through a water tank directly, and the temperature of a water source is gradually increased after long-time cooling treatment, so that the cooling effect is reduced; b: when current rubber waterstop was often produced, there was the rubber burr on the surface often to after the cooling, need the manual work to clear away the rubber burr, and then very big increase staff's work load, and waste time.

1. According to the invention, the cooling kit is designed, cooling water is manually injected into the cooling tank, then the water delivery pump works, and water flow circulation is formed under the action of the condensed water tank and the connecting pipe, so that the cooling water in the cooling tank flows to the top, the cooling effect on the rubber water stop is greatly improved, the water flow heat dissipation can be accelerated, the condition that the temperature of water flow rises due to long-time cold cutting is avoided, the cooling effect is greatly improved, and the production speed is improved.

2. According to the drying sleeve, the drying sleeve is designed, the rubber waterstop in the moving process firstly has the effect of the scraping supporting plate to primarily hang the rubber burrs on the surface, then the rubber waterstop enters the drying sleeve along with the movement of the rubber waterstop, and the scraping knife on the drying sleeve secondarily scrapes the rubber burrs on the surface of the rubber waterstop, so that the workload of manually removing the rubber burrs is greatly reduced, and the production speed is further improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a flow chart of the operation of the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a front view of the structural schematic of the present invention;

FIG. 4 is a top view of a schematic of the structure of the present invention;

FIG. 5 is a schematic cross-sectional view A-A of FIG. 3 of the present invention;

FIG. 6 is a schematic cross-sectional view B-B of FIG. 4 in accordance with the present invention;

FIG. 7 is an enlarged schematic view of region C of FIG. 6 of the present invention;

fig. 8 is a schematic view of the construction of the connector block of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 8, a method for manufacturing and processing a rubber water stop mainly includes the following steps:

step two: preparing materials: manually enabling a traction belt 35 to penetrate through the drying box 31, the drying sleeve 32 and the cooling box 22 and be connected with the produced rubber water stop belt through a connecting block 36, then manually injecting cooling water into the cooling box 22, then enabling a water delivery pump 28 to work, and forming water circulation through the action of the condensed water tank 27 and the connecting pipe 26, thereby completing material preparation operation;

step three: cooling materials: after the material preparation operation in the step two is completed, the first motor works to drive the winding rod 34 to rotate, so that the rubber water stop is driven to run inside the cooling box 22 under the action of the traction belt 35 and the connecting block 36, and the purpose of cooling the rubber water stop is achieved through water circulation inside the cooling box 22;

step four: drying materials: after the material cooling operation in the third step is completed, the rubber waterstop continuously moves to drive the rubber waterstop to slide out of the cooling box 22, the rubber waterstop firstly passes through the drying sleeve 32, water stains on the surface of the rubber waterstop are sucked under the action of the drying sleeve 32, then the rubber waterstop continuously moves to enter the drying box 31, the drying box 31 works to dry the rubber waterstop, and then the rubber waterstop is wound on the winding rod 34 under the action of a first motor, so that the drying operation of the rubber waterstop is completed;

the rubber waterstop drying equipment used in the steps comprises a mounting frame 1, a cooling suite 2 and a drying suite 3, wherein the cooling suite 2 and the drying suite 3 are sequentially arranged on the mounting frame 1 from left to right.

The cooling kit 2 comprises support columns 21, a cooling box 22, a scraping support plate 23, support plates 24, rolling shaft rods 25, connecting pipes 26, a condensed water tank 27 and a water delivery pump 28, wherein the support columns 21 are uniformly arranged on the lower end surface of the mounting frame 1 in a welding mode, the cooling box 22 is arranged on the mounting frame 1 through bolts, the scraping support plate 23 is arranged on the left side wall of the cooling box 22 through bolts, the support plates 24 are fixedly arranged on the right side wall of the cooling box 22, the rolling shaft rods 25 are uniformly arranged in the cooling box 22 in a rotating connection mode, the rolling shaft rods 25 are arranged in an S shape, the connecting pipes 26 are symmetrically arranged on the outer side of the cooling box 22, the lower ends of the connecting pipes 26 are connected with the condensed water tank 27, the condensed water tank 27 is fixedly arranged on the lower end surface of the mounting frame 1, the water delivery pump 28 is fixedly, later the water pump 28 work, through condensate tank 27 and connecting pipe 26 effect, form water circulation, later when the rubber waterstop moves because of the traction effect of dry external member 3, scrape material layer board 23 effect and tentatively strike off the rubber burr on the rubber waterstop surface, evenly be provided with roll axostylus axostyle 25 in the cooler bin 22 because of simultaneously, and roll axostylus axostyle 25 presents the S-shaped in the cold-cutting case and arranges, thereby can prolong the cooling time of rubber waterstop in cooler bin 22, thereby the cooling effect of rubber waterstop has been promoted, and then reach the refrigerated purpose of rubber waterstop.

The scraping supporting plate 23 is provided with a waste material shovel plate 231 in a rotating connection mode, a spring is connected between the waste material shovel plate 231 and the scraping supporting plate 23, the lower end of the waste material shovel plate 231 is abutted against an adjusting rotary column 232, the adjusting rotary column 232 is connected with a rotating connecting rod 233, the rotating connecting rod 233 is arranged on the scraping supporting plate 23 in a bolt connection mode, during the concrete work, when the rubber waterstop moves due to the action of the drying kit 3, the waste shovel plate 231 on the scraping supporting plate 23 acts against the surface of the rubber waterstop, thereby realizing the scraping treatment of the rubber burrs on the surface of the rubber water stop through the movement of the rubber water stop, meanwhile, the rotating connecting rod 233 is driven manually, so as to drive the adjusting rotating post 232 to rotate, and then waste material shovel 231 rotates through the spring action, and then reaches the purpose of adjusting waste material shovel 231 inclination to the effect of cleaing away of rubber burr has been improved.

Evenly be provided with spring ejector pin 251 through the spring on the roll axostylus axostyle 25, spring ejector pin 251 surface evenly is provided with spherical ball, concrete during operation, when the rubber waterstop moves because of dry external member 3 effect is inside at the cooler bin 22, the inside roll axostylus axostyle 25 of cooler bin 22 assists the rubber waterstop to move, and evenly be provided with spring ejector pin 251 on the roll axostylus axostyle 25, spring ejector pin 251 surface evenly is provided with spherical ball, thereby can very big reduction rubber waterstop and roll axostylus axostyle 25's area of contact, and then improve the contact time of rubber waterstop and rivers in the cooler bin 22, thereby very big improvement the cooling effect of rubber waterstop.

The drying kit 3 comprises a drying box 31, a drying sleeve 32, an extension frame 33, a motor, a winding rod 34, a traction belt 35 and a connecting block 36, the drying box 31 is fixedly installed on the installation frame 1, the drying sleeve 32 is fixedly installed on the side wall of the left end of the drying box 31, the extension frame 33 is symmetrically installed on the side wall of the right end of the drying box 31 through a welding mode, the motor is installed on a motor base on the outer wall of the extension frame 33, a winding rod 34 is fixedly installed on an output shaft of the motor, the traction belt 35 is fixedly installed on the winding rod 34, the connecting block 36 is installed on the traction belt 35, during specific work, the traction belt 35 is manually penetrated through the drying box 31, the drying sleeve 32 and the cooling box 22 and is connected with the produced rubber water stop through the action of the connecting block 36, then the motor works to drive the winding rod 34 to rotate, so that the rubber water stop moves through the action of the traction belt 35 and passes through the cooling box 22, The drying sleeve 32 and the drying box 31 are wound on the winding rod 34, so that the purpose of cooling, drying and collecting the rubber waterstop is achieved.

The drying sleeve 32 is provided with a rotating roller column 321 in a rotating connection mode, the surface of the rotating roller column 321 is wrapped with a water absorption cotton sleeve 322, the inner side of the rotating roller column 321 is provided with a pressing plate 323, the pressing plate 323 is symmetrically arranged on the drying sleeve 32 through a spring, the surface of the pressing plate 323 is provided with a water absorption sponge 324, the side wall of the drying sleeve 32 is symmetrically provided with a shoveling cutter 325, when the rubber waterstop moves under the traction action of a motor and comes out of the cooling box 22 to enter the inside of the drying sleeve 32, then the rotating roller 321 inside the drying sleeve 32 rotates under the friction action of the rubber waterstop, so that the water stains on the surface of the rubber waterstop of the water absorption cotton sleeve 322 on the surface are absorbed and dried, meanwhile, the pressing plate 323 presses the surface of the rubber waterstop due to the spring action, and then the water stains on the surface of the rubber waterstop are wiped through the water absorption sponge 324, thereby reducing the water on the surface of the rubber waterstop, and in the rubber waterstop motion process, the shovel material sword 325 is used for scraping the rubber waterstop surface to the very big reduction the condition emergence that rubber burr remained on rubber waterstop surface.

The second motor is installed on a motor base on the side wall of the drying box 31, the driving bevel gear 311 is installed on an output shaft of the second motor, the driven bevel gear 312 which is matched with the second motor is arranged on the outer side of the driving bevel gear 311, the driven bevel gear 312 is installed on the inner wall of the drying box 31 in a rotating connection mode, the driven bevel gear 312 is fixedly installed with a rotating fan blade 313, the surface of the rotating fan blade 313 is fixedly installed with a heating block 314, the inner wall of the drying box 31 is uniformly provided with air outlet holes A, when the second motor works, the driving bevel gear 311 is driven to rotate, the driven bevel gear 312 is driven to rotate through the action of gear meshing, the rotating fan blade 313 is driven to rotate to blow air, air is heated through the action of the heating block 314, hot air is blown into the surface of the rubber waterstop through the air outlet holes A, and water stains on the surface of the rubber waters, and further completing the drying operation of the rubber water stop.

The connecting block 36 is of a U-shaped structure, a lower clamping plate 361 is fixedly installed on the side wall of the connecting block 36, an upper clamping plate 362 is arranged at the upper end of the lower clamping plate 361, the upper clamping plate 362 is installed on the connecting block 36 in a sliding connection mode, a feeding bolt 363 abuts against the upper end of the upper clamping plate 362, the feeding bolt 363 is installed on the connecting block 36 in a threaded connection mode, a abdicating groove B is uniformly formed in the connecting block 36, a rotating clamping plate 364 is installed on the abdicating groove B in a rotating connection mode, rectangular teeth 365 are uniformly arranged on the rotating clamping plate 364, a connecting bolt 366 is installed on the rotating clamping plate 364 in a threaded connection mode, a material supporting plate 367 is arranged at the lower end of the rotating clamping plate 364, threaded holes C matched with the connecting bolt 366 are uniformly formed in the material supporting plate 367, the material supporting plate 367, there is outer ejector pin 369 through spring evenly connected on the spliced pole 368, concrete during operation, the manual work is placed the lower plate 361 with traction belt 35 on, later the manual work is twisted and is moved feed bolt 363 and drive punch holder 362 downstream, clamping action through punch holder 363 and lower plate 361, the realization is to the centre gripping operation of traction belt 35, later the manual work inserts spliced pole 368 to inside the rubber waterstop, outer ejector pin 369 on the spliced pole 368 props the rubber waterstop because of spring action, later manual drive rotates splint 364 and rotates, and rotate splint 364 and hold in the palm the flitch 367 through connecting bolt 366 and link together, thereby reach the purpose of fixed rubber waterstop, later through a motor work, drive receipts roll rod 34 and rotate, thereby realize the purpose that the rubber waterstop carried.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A manufacturing and processing method of a rubber waterstop uses a rubber waterstop drying device which comprises a mounting frame (1), a cooling kit (2) and a drying kit (3), and is characterized in that: the specific method for drying the rubber waterstop by adopting the rubber waterstop drying equipment comprises the following steps:

step two: preparing materials: manually enabling a traction belt (35) to penetrate through a drying box (31), a drying sleeve (32) and a cooling box (22) and be connected with a produced rubber water stop belt through a connecting block (36), manually injecting cooling water into the cooling box (22), enabling a water delivery pump (28) to work, and forming water circulation through the action of a condensed water tank (27) and a connecting pipe (26), so that material preparation operation is completed;

step three: cooling materials: after the material preparation operation in the step two is completed, the first motor works to drive the winding rod (34) to rotate, so that the rubber water stop is driven to run inside the cooling box (22) under the action of the traction belt (35) and the connecting block (36), and the purpose of cooling the rubber water stop is achieved through water circulation inside the cooling box (22);

step four: drying materials: after the material cooling operation in the third step is completed, the rubber waterstop continuously moves to drive the rubber waterstop to slide out of the cooling box (22), the rubber waterstop firstly passes through the drying sleeve (32) and absorbs water stains on the surface of the rubber waterstop under the action of the drying sleeve (32), then the rubber waterstop continuously moves to enter the drying box (31), the drying box (31) works to dry the rubber waterstop, and then the rubber waterstop is wound on the winding rod (34) under the action of a first motor, so that the drying operation of the rubber waterstop is completed;

a cooling external member (2) and a drying external member (3) are sequentially arranged on the mounting rack (1) from left to right;

the cooling kit (2) comprises supporting columns (21), a cooling box (22), a scraping supporting plate (23), a supporting plate (24), rolling shaft rods (25), connecting pipes (26), a condensate water tank (27) and a water delivery pump (28), wherein the supporting columns (21) are uniformly arranged on the lower end face of the mounting rack (1) in a welding mode, the cooling box (22) is arranged on the mounting rack (1) through bolts, the scraping supporting plate (23) is arranged on the left side wall of the cooling box (22) through bolts, the supporting plate (24) is fixedly arranged on the right side wall of the cooling box (22), the rolling shaft rods (25) are uniformly arranged in the cooling box (22) in a rotating connection mode, the rolling shaft rods (25) are arranged in an S shape, the connecting pipes (26) are symmetrically arranged on the outer side of the cooling box (22), the condensate water tank (27) is connected to the lower end of the connecting pipes (26), and, a water delivery pump (28) is fixedly arranged on the condensed water tank (27);

drying kit (3) are including drying cabinet (31), dry cover (32), extend frame (33), a motor, coiling pole (34), pull area (35) and connecting block (36), drying cabinet (31) fixed mounting is on mounting bracket (1), fixed mounting has dry cover (32) on drying cabinet (31) left end lateral wall, install through welded mode symmetry on drying cabinet (31) right-hand member lateral wall and extend frame (33), extend and install a motor on frame (33) outer wall motor cabinet, fixed mounting has coiling pole (34) on the output shaft of a motor, fixed mounting has traction area (35) on coiling pole (34), install connecting block (36) on traction area (35).

2. The manufacturing and processing method of the rubber waterstop according to claim 1, characterized in that: scrape and install waste material shovel board (231) through the mode of rotating the connection on material layer board (23), waste material shovel board (231) and scrape and be connected with the spring between material layer board (23), waste material shovel board (231) lower extreme supports to lean on to have adjusted rotary column (232), adjusts rotary column (232) and rotates connecting rod (233) and link together, rotates connecting rod (233) and installs on scraping material layer board (23) through bolted connection's mode.

3. The manufacturing and processing method of the rubber waterstop according to claim 1, characterized in that: spring ejector rods (251) are uniformly arranged on the rolling shaft rod (25) through springs, and spherical balls are uniformly arranged on the surfaces of the spring ejector rods (251).

4. The manufacturing and processing method of the rubber waterstop according to claim 1, characterized in that: rotating roller columns (321) are installed on the drying sleeve (32) in a rotating connection mode, the surface of each rotating roller column (321) is wrapped by a water absorption cotton sleeve (322), a pressing plate (323) is arranged on the inner side of each rotating roller column (321), the pressing plates (323) are symmetrically installed on the drying sleeve (32) through springs, water absorption sponges (324) are arranged on the surface of each pressing plate (323), and shoveling knives (325) are symmetrically arranged on the side wall of the drying sleeve (32).

5. The manufacturing and processing method of the rubber waterstop according to claim 1, characterized in that: the drying cabinet is characterized in that a second motor is mounted on a motor base on the side wall of the drying cabinet (31), a driving bevel gear (311) is mounted on an output shaft of the second motor, a driven bevel gear (312) which is matched with the driving bevel gear (311) is arranged on the outer side of the driving bevel gear (311), the driven bevel gear (312) is mounted on the inner wall of the drying cabinet (31) in a rotating connection mode, a rotating fan blade (313) is fixedly mounted on the driven bevel gear (312), a heating block (314) is fixedly mounted on the surface of the rotating fan blade (313), and air outlet holes A are uniformly formed in the inner wall of the.

6. The manufacturing and processing method of the rubber waterstop according to claim 1, characterized in that: the connecting block (36) is of a U-shaped structure, a lower clamping plate (361) is fixedly mounted on the side wall of the connecting block (36), an upper clamping plate (362) is arranged at the upper end of the lower clamping plate (361), the upper clamping plate (362) is mounted on the connecting block (36) in a sliding connection mode, a feeding bolt (363) abuts against the upper end of the upper clamping plate (362), the feeding bolt (363) is mounted on the connecting block (36) in a threaded connection mode, abdicating grooves B are uniformly formed in the connecting block (36), rotating clamping plates (364) are mounted on the abdicating grooves B in a rotating connection mode, rectangular teeth (365) are uniformly arranged on the rotating clamping plates (364), connecting bolts (366) are mounted on the rotating clamping plates (364) in a threaded connection mode, a material supporting plate (367) is arranged at the lower end of the rotating clamping plates (364), threaded holes C matched with the connecting bolts (366), hold in the palm flitch (367) fixed mounting on terminal surface under connecting block (36), fixed mounting has spliced pole (368) on connecting block (36), has outer ejector pin (369) through spring evenly connected on spliced pole (368).