CN117484585B - Lancing device and lancing method for layered water stop production - Google Patents

Abstract

The invention relates to the technical field of water stop joint cutting, and discloses a joint cutting device and a joint cutting method for layered water stop production, wherein the joint cutting device comprises a conveying mechanism for conveying a water stop, a cutter mechanism for cutting the water stop, an adjusting mechanism and a belt pressing mechanism for pressing the water stop, the belt pressing mechanism is used for pressing the water stop when cutting the water stop, and the adjusting mechanism is used for driving the belt pressing mechanism to move horizontally to tighten the water stop when the belt pressing mechanism presses the water stop; the lancing method comprises the following steps: step S1: firstly, placing a water stop on a conveying mechanism; step S2: the conveying mechanism drives the water stop belt to move below the cutter mechanism and the belt pressing mechanism; step S3: the belt pressing mechanism tightens the water stop belt; the water stop is pulled to be in a tight state, and then the water stop is subjected to slitting treatment through the cutter mechanism, so that the problem that the shape and the size of the slitting are uncertain due to the fact that the water stop is easy to deform in slitting is avoided.

Description

Lancing device and lancing method for layered water stop production

Technical Field

The invention relates to the technical field of water stop joint cutting, in particular to a joint cutting device and a joint cutting method for layered water stop production.

Background

The water stop belt of laminated structure is a waterproof and sealing material and consists of several layers or components. It is typically made of rubber or other elastic material, each layer having different functions and characteristics to achieve an effective waterproof and sealing effect, multiple layers including, but not limited to, base, reinforcing, waterproof, adhesive layers, and the like.

The utility model discloses a graphite layer cutting tool of a compound adhesive tape, which comprises a first work station and a second work station, wherein the first work station and the second work station comprise conveying rollers for conveying a material belt, a rolling cutter for cutting is further arranged on the conveying rollers of the second work station, and the graphite layer cutting tool also comprises a backing film, a waste film and a graphite raw material belt, wherein the backing film, the waste film and the graphite raw material belt are all introduced into the first work station, and the backing film, the waste film and the graphite raw material belt are sequentially compounded into three layers from bottom to top through the rolling of the conveying rollers of the first work station; the graphite raw material belt comprises an upper graphite raw film and a lower graphite layer, a stripping knife is fixedly arranged at the position of an output port of the first workstation, and the upper graphite raw film of the graphite raw material belt is stripped by the stripping knife; the conveying roller of the second workstation cuts the graphite layer and the waste film at the same time, so that the graphite layer and the waste film are cut into a central molding shape part and peripheral outer frame waste; and the waste discharge roller is used for lifting the cut waste discharge film outer frame waste and introducing the waste discharge film outer frame waste into the waste discharge roller, and the cut graphite layer outer frame waste is lifted away along with lifting of the reticulate pattern film outer frame waste, so that the rest formed graphite layer is obtained.

When the prior art carries out joint cutting treatment on the water stop, most of the water stop is directly conveyed to the lower part of the cutter mechanism, then the water stop is directly cut through the cutter mechanism, and the water stop is made of rubber, so when the water stop made of rubber moves into the cutter mechanism in a natural state, the cutter mechanism deforms the joint cutting position of the water stop when cutting the water stop, and the shape and the size of the water stop in the cutting process are inaccurate and cannot meet the required specification.

Disclosure of Invention

The invention aims to provide a lancing device and a lancing method for producing a layered water stop belt, so as to solve the defects in the prior art.

In order to achieve the above object, the present invention provides the following technical solutions: the utility model provides a layered water stop production is with lancing device, includes the conveying mechanism who is used for carrying the water stop, is used for cutting the cutter mechanism of water stop, still includes adjustment mechanism and is used for extruding the pressure belt mechanism of water stop, and pressure belt mechanism is used for extruding when the water stop cuts, and adjustment mechanism is used for driving pressure belt mechanism horizontal migration in order to tighten the water stop when pressure belt mechanism extrudes on the water stop.

Further, the water stop comprises a belt body and a protruding part, and the protruding part is positioned on the upper belt surface of the belt body.

Further, the belt pressing mechanism comprises a supporting plate and a pressing roller, two ends of the pressing roller are rotationally connected to the supporting plate, an annular groove is formed in the pressing roller, and the annular groove corresponds to the protruding portion.

Further, a clamping assembly is mounted on the press roller and is used for clamping the protruding portion entering the annular groove from the side face.

Further, the clamping assembly comprises a plurality of groups of limiting rings, the limiting rings are installed in the annular groove, the outer wall of the pressing roller is further provided with a sliding groove, the inner wall of the limiting rings is provided with a connecting rod, one end of the connecting rod is fixedly connected with the limiting rings, the other end of the connecting rod penetrates through the sliding groove and stretches into the pressing roller, the connecting rod and the sliding groove form sliding guide fit, the inside of the pressing roller is hollow, and a screw rod and a lantern ring are installed.

Further, the lantern ring is equipped with the multiunit, is equipped with the multiunit screw thread section that corresponds with multiunit lantern ring on the lead screw, is equipped with two screw threads that revolve opposite directions on every screw thread section, and the lantern ring passes through screw thread section meshing lead screw, and the lead screw drives two sets of collars through screw thread section and keeps away from each other or be close to, and the one end fixed mounting of compression roller has the motor, the output shaft lead screw of motor.

Further, the backup pad includes first backup pad and second backup pad, first backup pad and second backup pad are installed respectively in the both ends of compression roller, adjustment mechanism includes the spring, install first slider in the first backup pad, install the second slider in the second backup pad, the spacing groove has all been seted up to first backup pad and the inside spacing groove that has all been seted up of second backup pad, first slider passes through spacing groove and constitutes sliding guide cooperation with first backup pad, the second slider passes through spacing groove and constitutes sliding guide cooperation with the second backup pad, the spring is installed two sets of spacing inslot that are located respectively, first slider and second slider are connected respectively to two sets of springs, first carousel is installed in the mid-rotation of first slider, the second carousel is installed in the mid-rotation of second slider, the both ends of compression roller are rigid coupling first carousel and second carousel respectively, the motor is connected in the one end of compression roller through first carousel.

Further, the adjusting mechanism further comprises a limiting piece, and the limiting piece is used for limiting the compression roller between the first supporting plate and the second supporting plate before the water stop belt is tightened.

Further, the locating part includes the joint piece, joint pole and stopper, the joint piece is installed and is close to the one end inside of second slider in the compression roller, the guide slot has been seted up to the inner wall of compression roller, the lug is installed to the outer wall of joint piece, the lug is located the guide slot, and constitute sliding guide cooperation lead screw meshing with the guide slot, the screw has been seted up to the inside of joint piece, and through screw and lead screw meshing, the one end rotation of joint pole is connected in the joint piece, the holding tank has been seted up to the inside of second backup pad, the stopper is arranged in the holding tank, and constitute spacing interference fit with the holding tank, the middle part of second slider is equipped with the through-hole, the other end of joint pole passes the through-hole and stretches into in the holding tank, the one end fixed connection stopper in stretching into the holding tank.

A slitting method for producing a layered water stop comprises the following steps:

step S1: firstly, placing a water stop on a conveying mechanism;

step S2: the conveying mechanism drives the water stop belt to move below the cutter mechanism and the belt pressing mechanism;

step S3: the belt pressing mechanism tightens the water stop belt;

step S4: the cutter mechanism cuts the water stop belt under the tight state.

The invention has the beneficial effects that: in the technical scheme, when the water stop needs to be subjected to slitting, the adjusting mechanism and the belt pressing mechanism provided by the invention pull the water stop to be in a tight state, and then the cutter mechanism is used for slitting the water stop, so that the problem that the shape and the size of the slitting are uncertain due to the fact that the water stop is easy to deform in slitting is solved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a schematic diagram of a structure provided in an embodiment of the present invention;

fig. 2 is a schematic view of a water stop according to an embodiment of the present invention;

FIG. 3 is a top view of a press roll according to an embodiment of the present invention;

FIG. 4 is a side view of a press roll provided by an embodiment of the present invention;

FIG. 5 is a cross-sectional view of the interior of a press roll provided by an embodiment of the present invention;

fig. 6 is an enlarged view at a in fig. 5 provided by an embodiment of the present invention.

Reference numerals illustrate:

1. a water stop; 11. a belt body; 12. a boss; 2. a conveying mechanism; 21. a first transport assembly; 22. a second transport assembly; 3. a cutter mechanism; 4. an adjusting mechanism; 41. a first slider; 411. a first turntable; 42. a second slider; 421. a second turntable; 43. a limit groove; 44. a spring; 45. a joint block; 46. a connecting rod; 47. a limiting block; 48. a through hole; 49. a receiving groove; 5. a belt pressing mechanism; 51. a press roller; 52. an annular groove; 53. a first support plate; 54. a second support plate; 55. a clamping assembly; 551. a limiting ring; 552. a connecting rod; 553. a screw rod; 554. a collar; 555. and a motor.

Detailed Description

In order to make the technical scheme of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.

In the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more; the terms "upper," "lower," "left," "right," "inner," "outer," "front," "rear," "head," "tail," and the like are used as directions or positional relationships based on the directions or positional relationships shown in the drawings, merely to facilitate description of the invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the invention. In the description of the present invention, it should be noted that, unless explicitly stated and limited otherwise, the terms "connected," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

As shown in fig. 1 to 6, the embodiment of the invention provides a lancing device for producing a layered water stop, which comprises a conveying mechanism 2 for conveying the water stop 1, a cutter mechanism 3 for cutting the water stop 1, an adjusting mechanism 4 and a belt pressing mechanism 5 for pressing the water stop 1, wherein the belt pressing mechanism 5 is used for pressing when the water stop 1 is cut, and the adjusting mechanism 4 is used for driving the belt pressing mechanism 5 to horizontally move to tighten the water stop 1 when the belt pressing mechanism 5 presses on the water stop 1.

Specifically, the conveying mechanism 2 includes a first conveying component 21 and a second conveying component 22, which are respectively disposed at two sides of the cutter mechanism 3, the first conveying component 21 is used for conveying the water stop 1 to be cut into the cutter mechanism 3, the second conveying component 22 is used for conveying the cut water stop 1 out, the conveying mechanism 2, that is, the first conveying component 21 and the second conveying component 22 are all chain plate conveyors with a bearing surface, the cutter mechanism 3 can be lifting cutters, the above is the prior art, and is not repeated, the water stop 1 is horizontally disposed on the bearing surface of the conveying mechanism 2, the belt pressing mechanisms 5 are also disposed in two groups, which are respectively disposed at two sides of the cutter mechanism 3, and correspond to the first conveying component 21 and the second conveying component 22, the adjusting mechanism 4 is connected with the belt pressing mechanisms 5 on the second conveying component 22, the adjusting mechanism 4 can be a linear driving mechanism such as an air cylinder, an electric push rod, etc., the belt pressing mechanisms 5 can be pressing plates driven to descend by air cylinders or hydraulic cylinders, the pressing plates are arranged on telescopic shafts of the air cylinders, the air cylinders are arranged above the conveying mechanisms 2, the stretching of the telescopic shafts at the output ends of the air cylinders drives the pressing plates to press the water stop belt 1, when the first conveying assembly 21 moves the water stop belt 1 to the lower part of the cutter mechanism 3, the two groups of belt pressing mechanisms 5 press the two ends of the water stop belt 1 on the first conveying assembly 21 and the second conveying assembly 22, at the moment, the first conveying assembly 21 and the second conveying assembly 22 are in a temporary state, then the adjusting mechanism 4 drives the belt pressing mechanisms 5 on the second conveying assembly 22 to horizontally move, so that the belt pressing mechanisms 5 and the second conveying assembly 22 synchronously move, and under the conveying of the second conveying assembly 22 and the temporary stop of the first conveying assembly 21, one end of the water stop belt 1 continues to move along with the driving of the adjusting mechanism 4 and the second conveying assembly 22, the other end is still on the first conveying component 21 under the extrusion of another group of belt pressing mechanisms 5, at this time, one end of the water stop belt 1 continuously moves and the other end is still, the length of the water stop belt 1 is lengthened, the water stop belt 1 is in a tightening state because the water stop belt 1 is made of rubber, then the cutter mechanism 3 cuts the water stop belt 1 in the tightening state, so that the slitting treatment of the water stop belt 1 is realized, the phenomenon that the water stop belt 1 deforms during the slitting treatment is avoided, finally, after the slitting treatment of the water stop belt 1, the belt pressing mechanisms 5 reset and release the extrusion of the water stop belt 1, and the adjusting mechanism 4 drives one group of belt pressing mechanisms 5 to reset.

In another embodiment of the present invention, further, the water stop 1 includes a belt body 11 and a boss 12, and the boss 12 is located on an upper belt surface of the belt body 11.

Specifically, as shown in fig. 2, the belt body 11 is horizontally arranged on the conveying mechanism 2, the protruding portion 12 is in a vertical state, and the protruding portion 12 is located on the upper belt surface of the belt body 11, that is, the water stop belt 1 in this embodiment is a back-to-back type water stop belt 1, which is the prior art, and the arrangement of the protruding portion 12 can be used to fill gaps and cracks on construction joints or irregular surfaces, so as to help prevent water or other liquid from leaking through the gaps into a building or a structure.

In an alternative embodiment, preferably, the belt pressing mechanism 5 includes a support plate and a pressing roller 51, two ends of the pressing roller 51 are rotatably connected to the support plate, and an annular groove 52 is formed in the pressing roller 51, and the annular groove 52 corresponds to the boss 12.

Specifically, in the above embodiment, since the water stop 1 is provided with the protruding portion 12 and the protruding portion 12 has a certain height, when the pressing plate is used to press the upper portion of the water stop 1, the protruding portion 12 is pressed and inclined, so that the joint of the protruding portion 12 and the belt 11 is broken;

in order to solve the above technical problems, in the present embodiment, the belt pressing mechanism 5 includes a support plate and a press roller 51, two ends of the press roller 51 are respectively rotatably connected to a support plate, an annular groove 52 is formed in the press roller 51, the length direction of the press roller 51 is consistent with the width direction of the conveying mechanism 2, two groups of support plates and press rollers 51 are respectively located at two sides of the cutter mechanism 3 and above the first conveying component 21 and the second conveying component 22, the two groups of press rollers 51 respectively press the water stop belt 1 on the first conveying component 21 and the second conveying component 22, during conveying of the water stop belt 1, the press roller 51 is pressed on the belt body 11 of the water stop belt 1, the first conveying component 21 and the second conveying component 22 drive the water stop belt 1 to synchronously move, the press roller 51 rotates by utilizing friction force between the press roller 51 and the belt body 11, the press roller 51 is arranged to enable the water stop belt 1 to be fed into and fed out from the cutter mechanism 3 smoothly, and the bulge 12 is arranged on the water stop belt 1, so that the bulge 12 enters and passes through the annular groove 52 when the water stop belt 1 synchronously moves, the bulge 12 is prevented from affecting the water stop belt 1 and the water stop belt 1 to move under the annular groove 12, and the water stop belt 1 is prevented from moving under the annular groove 1 or the inclined position of the guide groove 1;

when the water stop 1 is cut, the adjusting mechanism 4 drives the press roller 51 to horizontally move on the supporting plate and limits the rotation of the press roller 51 through the locking piece, then the adjusting mechanism 4 drives the press roller 51 in the locking state to move along the output direction of the second conveying assembly 22 and synchronously move with the second conveying assembly 22 so as to pull one end of the water stop 1, and meanwhile, the other group of press rollers 51 presses the other end of the water stop 1 on the first conveying assembly 21 and keeps the static state, so that the tightening treatment of the water stop 1 is realized, and then the cutter mechanism 3 cuts the water stop 1 in the tightening state.

It should be noted that, a lifting mechanism (not shown) for driving the pressing roller 51 to lift up and down may be further installed on the supporting plate, the lifting mechanism may be a linear driving mechanism such as an air cylinder or a hydraulic cylinder, and the lifting mechanism controls the lifting of the pressing roller 51 to adjust the distance between the pressing roller 51 and the conveying mechanism 2, so as to adapt to different extrusion forces and water stops 1 with different thicknesses, and the vertical linear driving is one of the simplest mechanical driving modes, which is not described in detail in the prior art.

In another embodiment of the present invention, further, a clamping assembly 55 is mounted on the press roller 51, the clamping assembly 55 being used to clamp the boss 12 into the annular groove 52 from the side.

Specifically, the clamping assembly 55 includes at least two groups of clamping plates that can be close to or far away from each other, the clamping plates are disposed in the annular groove 52, the driving member for driving the movement of the clamping plates can be a linear driving mechanism such as an electric push rod, in the actual use process, the first conveying assembly 21 and the second conveying assembly 22 are all temporarily stopped, the protruding portion 12 is located in the annular groove 52, the driving member drives the two groups of clamping plates to move in opposite directions, the movement of the clamping plates gradually reduces the width of the annular groove 52 and finally clamps the two sides of the protruding portion 12, the two groups of compression rollers 51 have the same structure, clamping of the protruding portions 12 at two ends of the water stop belt 1 is achieved, then the second conveying assembly 22 continues to drive the water stop 1 to move, the adjusting mechanism 4 drives the compression rollers 51 on the second conveying assembly 22 to move, and the compression rollers 51 are rotationally connected to the supporting plate, and the clamping plates clamp the protruding portion 12, so that the clamping assembly 55 is also a locking member in the embodiment, the synchronous movement of the compression rollers 51 and the second conveying assembly 22 realizes pulling of the upper belt 11 and the protruding portion 12, and the other end of the water stop 1 can be kept under the condition of the water stop 1, and the other end of the water stop 11 can be kept under the condition of the fixed position of the water stop 1.

In an alternative embodiment, preferably, the clamping assembly 55 includes a plurality of groups of limiting rings 551, the limiting rings 551 are installed in the annular groove 52, the outer wall of the pressing roller 51 is further provided with a sliding groove, the inner wall of the limiting rings 551 is provided with a connecting rod 552, one end of the connecting rod 552 is fixedly connected with the limiting rings 551, the other end of the connecting rod 552 penetrates through the sliding groove and stretches into the pressing roller 51, the connecting rod 552 and the sliding groove form sliding guide fit, the pressing roller 51 is hollow, a screw rod 553 and lantern rings 554 are installed, the lantern rings 554 are provided with a plurality of groups of screw thread sections corresponding to the plurality of groups of lantern rings 554, each group of screw thread sections is provided with two screw threads with opposite rotation directions, the lantern rings 554 are meshed with the screw rod 553 through the screw thread sections, the screw rod 553 drives the two groups of lantern rings 554 to be far away from or close to each other through the screw thread sections, one end of the pressing roller 51 is fixedly provided with a motor 555, and an output shaft of the motor 555 is connected with the screw rod 553.

Specifically, the limiting ring 551 is the clamping plate in the above embodiment, the motor 555 is fixedly installed at one end of the compression roller 51, when the belt 11 is conveyed by the conveying mechanism 2, the belt 11 moves horizontally under the compression roller 51, the compression roller 51 drives the belt 11 to rotate by the friction force of the belt 51 and the belt 51, the shell of the motor 555 rotates synchronously with the compression roller 51, when the boss 12 is clamped, the motor 555 drives the screw 553 to rotate in the compression roller 51, the rotation of the screw 553 drives the two sets of collars 554 to approach or separate from each other, at the moment, the connecting rod 552 slides in the chute, the chute groove is consistent with the axial direction of the compression roller 51, the collars 554 drive the limiting ring 551 to slide in the annular groove 52 through the connecting rod 552, the two sets of limiting rings 551 move synchronously and approach each other in the annular groove 52, and the two sets of limiting rings 551 approach or separate from each other in the annular groove 52, the boss 12 is positioned in the annular groove 52, so that the two sets of limiting rings 551 approach each other, the boss 12 is clamped in the annular groove 12, a plurality of corresponding sets of boss 12 are formed, the two sets of boss 12 are clamped in the annular grooves 12, and the two sets of limiting rings 551 are clamped in the annular groove 1, the initial notch 12 is prevented from being clamped by the two sides of the water stop rings 1, and the initial notch 1 is prevented from being pressed by the two sides of the boss 12;

the two sets of compression rollers 51 are respectively provided with a clamping component 55, and are respectively clamped at two ends of the water stop belt 1, and then, after the limiting ring 551 clamps the protruding part 12, the compression rollers 51 are fixed on the water stop belt 1, at the moment, the second conveying component 22 drives one end of the water stop belt 1 to move so as to synchronously drive one set of compression rollers 51 to synchronously move, and the other set of compression rollers 51 are statically arranged on the first conveying component 21.

Further, the support plate includes a first support plate 53 and a second support plate 54, the first support plate 53 and the second support plate 54 are respectively installed at two ends of the press roller 51, the adjusting mechanism 4 includes a spring 44, a first slider 41 is installed in the first support plate 53, a second slider 42 is installed in the second support plate 54, a limit groove 43 is formed in the first support plate 53 and the second support plate 54, the first slider 41 forms sliding guide fit with the first support plate 53 through the limit groove 43, the second slider 42 forms sliding guide fit with the second support plate 54 through the limit groove 43, two groups of springs 44 are respectively located in the two groups of limit grooves 43, the two groups of springs 44 are respectively connected with the first slider 41 and the second slider 42, a first rotary disc 411 is rotatably installed in the middle of the first slider 41, a second rotary disc 421 is rotatably installed in the middle of the second slider 42, two ends of the press roller 51 are respectively fixedly connected with the first rotary disc 411 and the second rotary disc 421, and a motor 555 is connected to one end of the press roller 51 through the first rotary disc 411.

Specifically, the groove direction of the limiting groove 43 is consistent with the conveying direction of the water stop belt 1, the motor 555 is fixedly connected to the first rotating disc 411, the output shaft of the motor 555 penetrates through the first rotating disc 411 and stretches into the press roller 51, the first sliding block 41 and the second sliding block 42 are of rectangular block structures and are respectively arranged at two ends of the press roller 51, the first sliding block 41 and the first supporting plate 53 form sliding guide fit through the limiting groove 43, the second sliding block 42 and the second supporting plate 54 form sliding guide fit through the limiting groove 43, so when the press roller 51 is driven by the belt body 11 and moves horizontally, the first sliding block 41 and the second sliding block 42 move synchronously along the press roller 51 and slide in the limiting groove 43, in the actual use process, the motor 555 drives the screw 553 to rotate in the press roller 51 and drives the clamping assembly 55 to clamp the boss 12, the spring 44 is in a natural state before the clamping assembly 55 clamps the boss 12, the first sliding block 41 and the second sliding block 42 are kept at the initial position through the limiting groove 43 and the second supporting plate 53, the water stop belt 1 is driven by the limiting groove 43 and the second sliding guide fit through the limiting groove 43 and the second supporting plate 54, when the press roller 51 is driven by the limiting groove 11 and the second conveying assembly 22, the first sliding block 1 and the second sliding block 22 are driven by the elastic force of the spring 44 and the elastic force of the first sliding block 41 and the second sliding block 42 at the boss 12, and the first sliding block 1 is driven by the boss 55 and the boss 12, and the second sliding block 1 can be driven by the elastic assembly and the elastic assembly 1 and the elastic driving the elastic force of the elastic assembly and the elastic driving assembly.

Further, the adjusting mechanism 4 further comprises a limiting member for limiting the pressing roller 51 between the first support plate 53 and the second support plate 54 before the waterstop 1 is tightened.

Specifically, as shown in fig. 5 and 6, the limiting piece includes a connecting block 45, a connecting rod 46 and a limiting block 47, the connecting block 45 is installed inside one end of the press roller 51 close to the second slider 42, a guide groove is provided on the inner wall of the press roller 51, a bump is installed on the outer wall of the connecting block 45, the bump is located in the guide groove and forms sliding guiding fit with the guide groove, a screw hole is provided inside the connecting block 45, the screw hole is meshed with the screw rod 553, one end of the connecting rod 46 is rotatably connected to the connecting block 45, a containing groove 49 is provided inside the second supporting plate 54, the limiting block 47 is arranged in the containing groove 49 and forms limiting interference fit with the containing groove 49, a through hole 48 is provided in the middle of the second slider 42, the other end of the connecting rod 46 penetrates through the through hole 48 and stretches into the containing groove 49, one end of the containing groove 49 is fixedly connected with the limiting block 47, when the clamping assembly 55 does not clamp the boss 12, under the limitation of the limiting block 47, the limiting block 47 is located in the containing groove 49, the first slider 41, the second slider 42 is limited in an initial position, when the motor 555 is driven to rotate, the motor 555 rotates, the boss 55 is driven to rotate the boss 12 to the boss 45 to be separated from the second slider 45, and the second slider 45 is also driven to move away from the boss 47 and move to the corresponding to the second slider 47, and the corresponding to the second slider 47, the boss 47 can be completely clamped by the sliding block 45, and the second slider 47 is completely and moved to the boss 47, and the boss 47 is completely and moved to the boss 47 from the boss 45, and can be completely and separated from the boss 45.

Secondly, the connecting rod 46 is an elastic telescopic rod, namely, a telescopic rod with an elastic piece installed inside, which is not described in detail in the prior art, after the water stop 1 is cut, the motor 555 drives the screw rod 553 to reset and rotate, the clamping assembly 55 releases the clamping on the protruding portion 12, the connecting block 45 also resets and moves along with the clamping assembly, the limiting block 47 gradually protrudes from the through hole 48, the protruding limiting block 47 is abutted against the second supporting plate 54 at the moment, the connecting rod 46 starts to shrink under the extrusion of the connecting block 45, then the spring 44 in the limiting groove 43 drives the first sliding block 41 and the second sliding block 42 to reset in the limiting groove 43 and drives the compression roller 51 to reset and move, when the limiting block 47 moves to the notch of the containing groove 49, the connecting rod 46 resets and pushes the limiting block 47 into the containing groove 49, and at the moment, the limiting block 47 again forms the movement limitation on the compression roller 51, so that the compression roller 51 can only rotate.

The embodiment of the invention also provides a lancing method for producing the layered water stop, which is a use method of the lancing device, and comprises the following steps:

step S1: firstly, placing a water stop belt 1 on a conveying mechanism 2;

step S2: the conveying mechanism 2 drives the water stop belt 1 to move below the cutter mechanism 3 and the belt pressing mechanism 5;

step S3: the belt pressing mechanism 5 tightens the water stop belt 1;

step S4: the cutter mechanism 3 cuts the water stop 1 in a stretched state.

Specifically, the conveying mechanism 2 includes a first conveying component 21 and a second conveying component 22, which are respectively disposed at two sides of the cutter mechanism 3, the first conveying component 21 is used for conveying the water stop 1 to be cut into the cutter mechanism 3, the second conveying component 22 is used for conveying out the cut water stop 1, the conveying mechanism 2, that is, the first conveying component 21 and the second conveying component 22, are all chain slat conveyors with a bearing surface, when the first conveying component 21 moves the water stop 1 to the cutter mechanism 3, the two sets of belt pressing mechanisms 5 press two ends of the water stop 1 on the first conveying component 21 and the second conveying component 22, at this time, the first conveying component 21 and the second conveying component 22 are both in a temporary state, then the adjusting mechanism 4 drives the belt pressing mechanism 5 on the second conveying component 22 to horizontally move, so that the belt pressing mechanism 5 and the second conveying component 22 synchronously move, the belt pressing mechanism 2 is under the stop of the conveying of the second conveying component 22 and the first conveying component 21, when one end of the water stop 1 is kept in a temporary state along with the adjusting mechanism 4 and the second conveying component 22 moves, when the other end of the water stop 1 is kept in a state, the water stop 1 is kept in a state of being stretched, the water stop 1 is continuously pressed, and the other end of the water stop 1 is kept in a state under the state, the state is kept in a state of being stretched, and the water stop 1 is continuously being cut, the water stop 1 is continuously pressed, and deformed, and the water stop 1 is kept in a state under the state, and the state is kept under the state, when the condition is kept in the state, the state is kept under the state, and the state is kept under the state being in the state, and the state being in the state being stretched, and the state is kept under the state.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the invention, which is defined by the appended claims.

Claims (2)

1. The utility model provides a layered waterstop production is with lancing device, including conveying mechanism (2) that are used for carrying waterstop (1), cutter mechanism (3) that are used for cutting waterstop (1), a serial communication port, still include adjustment mechanism (4) and be used for extruding the pressure belt mechanism (5) of waterstop (1), pressure belt mechanism (5) are used for extruding when waterstop (1) cutting, adjustment mechanism (4) are used for order about pressure belt mechanism (5) horizontal migration in order to tighten waterstop (1) when pressure belt mechanism (5) extrudees on waterstop (1), waterstop (1) include belt body (11) and bellying (12), bellying (12) are located the upper band face of belt body (11), pressure belt mechanism (5) include backup pad and compression roller (51), the both ends rotation of compression roller (51) are connected in the backup pad, annular groove (52) have been seted up on compression roller (51), annular groove (52) correspond bellying (12), install centre gripping subassembly (55) on compression roller (51), centre gripping subassembly (55) are used for getting into protruding (52) from the centre gripping in side centre gripping, limit position limiting groove (551) are still seted up in annular groove (551) in annular groove (55), the inner wall of the limiting ring (551) is provided with a connecting rod (552), one end of the connecting rod (552) is fixedly connected with the limiting ring (551), the other end of the connecting rod (552) penetrates through the sliding groove and stretches into the pressing roller (51), the connecting rod (552) and the sliding groove form sliding guide fit, the pressing roller (51) is hollow, a screw rod (553) and a lantern ring (554) are arranged, the lantern ring (554) is provided with a plurality of groups of screw thread sections corresponding to the plurality of groups of lantern rings (554), each group of screw thread sections is provided with two screw threads with opposite rotation directions, the lantern ring (554) is meshed with the screw rod (553) through the screw thread sections, the screw rod (553) drives the two groups of lantern rings (554) to be far away from or close to each other through the screw thread sections, one end of the pressing roller (51) is fixedly provided with a motor (555), an output shaft of the motor (555) is connected with the screw rod (553), the supporting plate comprises a first supporting plate (53) and a second supporting plate (54), the first supporting plate (53) and the second supporting plate (54) are respectively arranged at two ends of the pressing roller (51), the adjusting mechanism (4) comprises a spring (44), a first sliding block (41) is arranged in the first supporting plate (53), the first supporting plate (54) and the second supporting plate (42) is provided with the second sliding block (42), the first sliding block (41) and the first supporting plate (53) form sliding guide fit through a limiting groove (43), the second sliding block (42) and the second supporting plate (54) form sliding guide fit through the limiting groove (43), two groups of springs (44) are respectively arranged in the two groups of limiting grooves (43), the two groups of springs (44) are respectively connected with the first sliding block (41) and the second sliding block (42), the middle part of the first sliding block (41) is rotatably provided with a first rotating disc (411), the middle part of the second sliding block (42) is rotatably provided with a second rotating disc (421), two ends of a pressing roller (51) are fixedly connected with the first rotating disc (411) and the second rotating disc (421) respectively, a motor (555) is connected with one end of the pressing roller (51) through the first rotating disc (411), the regulating mechanism (4) further comprises a limiting piece, the limiting piece is used for limiting the pressing roller (51) between the first supporting plate (53) and the second supporting plate (54) before the waterstop (1) is tightened, the limiting piece comprises a connecting block (45), a connecting rod (46) and a limiting block (47), the limiting block (45) is rotatably provided with the connecting block (45) and the limiting block (45) is arranged at one end of the pressing roller (51) close to the first supporting plate (54), the inner wall (45) is provided with a guide groove, the inner wall (45) is arranged at one end of the pressing block, and is provided with a guide groove (45) and is matched with the guide groove, screw holes are formed in the connecting block (45), the connecting block is meshed with the screw rods (553) through the screw holes, one end of the connecting rod (46) is rotationally connected to the connecting block (45), a containing groove (49) is formed in the second supporting plate (54), a limiting block (47) is arranged in the containing groove (49) and forms limiting interference fit with the containing groove (49), a through hole (48) is formed in the middle of the second sliding block (42), the other end of the connecting rod (46) penetrates through the through hole (48) and stretches into the containing groove (49), and one end of the connecting rod (46) stretches into the containing groove (49) to be fixedly connected with the limiting block (47).

2. A slitting method for producing a layered water stop, which is a method for using the slitting device for producing a layered water stop as defined in claim 1, characterized by comprising the steps of:

step S1: firstly, placing a water stop belt (1) on a conveying mechanism (2);

step S2: the conveying mechanism (2) drives the water stop belt (1) to move to the lower parts of the cutter mechanism (3) and the belt pressing mechanism (5);

step S3: the belt pressing mechanism (5) tightens the water stop belt (1);

step S4: the cutter mechanism (3) cuts the water stop belt (1) under the tight state.