CN114800678B - Plastic pipe fitting integrated processing equipment - Google Patents

Abstract

The invention provides plastic pipe fitting integrated processing equipment which comprises a cutter mounting structure, an embossing device, a stamping device, a pushing mechanism, a mounting plate, a cutting device, a supporting mechanism, a friction roller mechanism and a conveying device, wherein the cutter mounting structure is arranged on the cutter mounting structure; the cutter mounting structure, the propelling mechanism, the supporting mechanism and the friction roller mechanism are fixed on the mounting plate; the propelling mechanism, the cutter mounting structure, the supporting mechanism and the friction roller mechanism are sequentially arranged; the embossing device and the stamping device are fixed on the cutter mounting structure; the cutting device is fixed on the supporting mechanism; the conveying device is arranged below the cutter mounting structure, the supporting mechanism and the friction roller mechanism. According to the plastic pipe fitting integrated processing equipment, the whole pipe fitting is processed, the stamping, embossing and cutting work is placed in the same device, and the cutting is performed after the two work are completed, so that the trouble of cutting the pipe fitting into small pipe fittings for processing is avoided, and the plastic pipe fitting integrated processing equipment is convenient and efficient.

Description

Plastic pipe fitting integrated processing equipment

Technical Field

The invention relates to the field of plastic pipe fitting processing, in particular to plastic pipe fitting integrated processing equipment.

Background

In the process of processing the plastic pipe fitting, the whole plastic pipe fitting is required to be cut into small pipe fittings, six inward clamping claws are formed outside the small pipe fittings in a punching mode, and the clamping claws are sequentially pressed in a pressing mode to form two flower-shaped inner decorations. The existing processing mode is manual processing, the punching is needed to be performed on the open punching press machine manually, then the pattern braiding operation is performed by manual internal pressure, the mode is low in efficiency, high in manpower and material resource consumption and long in production period, and the efficiency requirement of the order stacking condition cannot be met. At present, the stamping operation is manually carried out, an operator is required to manually fix the pipe fitting and rotationally process the pipe fitting, and the process has certain potential safety hazard and lacks certain guarantee for the safety of the operator. At present, the working procedure of forming the flower-shaped interior decoration by internal pressure needs to be outsourced to other personnel for operation, so that the production period is prolonged to a certain extent, and the requirements of enterprises are not met.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides the integrated processing equipment for the plastic pipe fitting, which is used for processing the whole pipe fitting, placing the stamping, embossing and cutting work in one device, and cutting after the two works are completed, so that the trouble of cutting the pipe fitting into small pipe fittings for processing is eliminated, and the integrated processing equipment is convenient and efficient.

In order to achieve the above-mentioned purpose, the present invention provides an integrated processing device for plastic pipe fittings, comprising a cutter mounting structure, a three-embossing device, a three-stamping device, a pushing mechanism, a mounting plate, a cutting device, a supporting mechanism, a friction roller mechanism and a conveying device; the cutter mounting structure, the propelling mechanism, the supporting mechanism and the friction roller mechanism are fixed on the mounting plate; the propelling mechanism, the cutter mounting structure, the supporting mechanism and the friction roller mechanism are sequentially arranged; the embossing device and the stamping device are fixed on the cutter mounting structure; the cutting device is fixed on the supporting mechanism; the conveying device is arranged below the cutter mounting structure, the supporting mechanism and the friction roller mechanism.

Preferably, the tool mounting structure comprises a tool mounting frame, four inner support rods, a tool support mounting foot, a tool inner mounting frame, a mold core fixing frame and a mold core; the tool mounting frame and the tool inner mounting frame are annular; the tool inner mounting frame is connected into the tool mounting frame through the inner supporting rod; the bottom of the cutter mounting frame is fixed on the mounting plate through the cutter supporting and mounting foot; the mold core is fixed in the tool mounting frame through the mold core fixing frame, and the mold core penetrates through the tool mounting frame; the embossing devices are uniformly and circumferentially connected to one side, adjacent to the supporting mechanism, of the cutter mounting frame; the three stamping devices are uniformly and circumferentially connected to one side, adjacent to the pushing mechanism, of the cutter mounting frame in the circumferential direction of the cutter mounting frame, and the positions of the three stamping devices correspond to the embossing devices respectively; the bottom of the tool mounting frame and the bottom of the tool inner mounting frame form a through groove.

Preferably, each embossing device comprises a pressing head, a pressing head guide block, a pressing head pushing block and a first cylinder; the pressure head is in transmission connection with the first cylinder through the pressure head pushing block; the pressure head penetrates through the pressure head guide block; the first cylinder is fixed on the inner wall of the tool mounting frame; the pressure head guide block is fixed with the cutter inner mounting frame; the pressure head is arranged towards the mold core.

Preferably, each of the punching devices comprises a punching cutter, a cutter guide block, a cutter pushing block and a hydraulic cylinder; the punching cutter is in transmission connection with the hydraulic cylinder through the cutter head pushing block; the punching cutter is arranged in the cutter head guide block in a penetrating way; the hydraulic cylinder is fixed on the inner wall of the cutter mounting frame; the tool bit guide block is fixed with the tool inner mounting frame; the punching tool is arranged towards the mould core.

Preferably, the punching tool is arc-shaped.

Preferably, the propulsion mechanism comprises a propulsion device and a second cylinder support frame; the propelling device is fixed on the mounting plate through the second cylinder supporting frame; the propelling device comprises a second cylinder, a push rod and a sleeve; the sleeve is in transmission connection with the second cylinder through the push rod; the second cylinder is fixed on the cylinder supporting frame; the sleeve is sleeved outside the mold core and forms a through groove matched with the mold core fixing frame.

Preferably, the supporting mechanism comprises a supporting sleeve and a sleeve bracket, the supporting sleeve is fixed on the sleeve bracket, and the sleeve bracket is fixed on the mounting plate; the position of the support sleeve corresponds to the position of the mold core.

Preferably, the cutting device comprises a motor, a connecting sleeve, a connecting rod and a blade; the connecting rod is bent, and the first end and the second end of the connecting rod are parallel; the first end of the connecting rod is in transmission connection with the motor through the connecting sleeve; the second end of the connecting rod is connected with the blade; the motor is fixed on the sleeve bracket and is positioned beside the supporting sleeve.

Preferably, the friction roller mechanism comprises two friction rollers, two roller shafts, a friction roller mounting plate and a friction roller bracket; the friction roller is rotatably connected to the friction roller mounting plate at intervals through the roller rotating shaft; the friction roller mounting plate is fixed on the mounting plate through the friction roller bracket; the gap position between the two friction rollers corresponds to the position of the supporting sleeve.

Preferably, the section of the mold core is in a rounded triangle shape; two grooves which are distributed at intervals are respectively arranged on the three surfaces of the mold core; and a rubber gasket is fixed in the groove.

The invention adopts the technical proposal, which has the following beneficial effects:

1. through adopting integrated processing equipment, put punching press, knurling and cutting in same device and go on, reached production efficiency improvement and the effect of the whole production of machine, solved manual operation and made production cycle longer, can not satisfy the problem of the produced potential safety hazard of enterprise's production demand and manual operation.

2. Through setting the mold core into the shape of a round angle triangle body to be provided with six recesses, the inside fixed connection rubber gasket of recess has reached difficult deformation and the pipe fitting is easy to take out after the punching press to the pipe fitting, and the effect that equipment can be used to modularized production has solved and has led to the pipe fitting to take out the difficulty because of the mold core shape, and the punching press leads to the problem that the pipe fitting warp.

3. Through adopting pneumatic cylinder control tool bit to punching press simultaneously to set up the tool bit into the arc, reached six jack catchs of one shot forming, the pipe fitting is peeled off to the jack catch edge more easily and the jack catch is comparatively smooth all around, and the effect that the size is basically similar has been solved manual processing and has been led to process time long, and the jack catch leads to the shape of jack catch because of the atress is inhomogeneous, the size, and length difference leads to the problem that follow-up work is difficult to develop.

4. The six cutter heads are controlled to press the claws inwards in a different sequence by adopting the three cylinders respectively, so that the three claws in the same area are fastened with each other, the automatic flower braiding and forming effect of the equipment is achieved, and the problem that the processing period is prolonged due to the fact that enterprises need to outsource flower braiding operation is solved.

Drawings

FIG. 1 is a schematic view of a first direction of a plastic pipe integrated processing apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic view of a second direction of a plastic pipe integrated processing apparatus according to an embodiment of the present invention;

FIG. 3 is a schematic view of a connection structure of a cutter mounting structure and a pushing mechanism according to an embodiment of the present invention;

FIG. 4 is a schematic view of a tool mounting structure according to an embodiment of the present invention;

FIG. 5 is a schematic view of a stamping device according to an embodiment of the present invention;

FIG. 6 is a first working state diagram of the stamping device according to the embodiment of the present invention;

FIG. 7 is a second operating state diagram of the stamping device according to the embodiment of the present invention;

FIG. 8 is a schematic view of an embossing apparatus according to an embodiment of the present invention;

FIG. 9 is a first operational state diagram of an embossing apparatus according to an embodiment of the present invention;

FIG. 10 is a second operational state diagram of an embossing apparatus according to an embodiment of the present invention;

FIG. 11 is a schematic view of a propulsion device according to an embodiment of the present invention;

FIG. 12 is a schematic view of a cutting device according to an embodiment of the present invention;

FIG. 13 is a schematic view of a mounting plate according to an embodiment of the present invention;

FIG. 14 is a stamped plastic tubing of an embodiment of the present invention;

fig. 15 is an embossed plastic tube according to an embodiment of the invention.

Detailed Description

The following description of the preferred embodiments of the present invention will be given with reference to fig. 1 to 15, so that the functions and features of the present invention can be better understood.

Referring to fig. 1 to 15, an integrated processing apparatus for plastic pipe according to an embodiment of the present invention includes a tool mounting structure, a three-embossing device 3, a three-stamping device 4, a pushing mechanism, a mounting plate 8, a cutting device 9, a supporting mechanism, a friction roller mechanism and a conveying device 17; the cutter mounting structure, the propelling mechanism, the supporting mechanism and the friction roller mechanism are fixed on the mounting plate 8; the propelling mechanism, the cutter mounting structure, the supporting mechanism and the friction roller mechanism are sequentially arranged; the embossing device 3 and the stamping device 4 are fixed on the cutter mounting structure; the cutting device 9 is fixed on the supporting mechanism; the conveyor 17 is arranged below the cutter mounting structure, the support mechanism and the friction roller mechanism.

The cutter mounting structure comprises a cutter mounting frame 1, four inner support rods 2, a cutter supporting and mounting foot 7, a cutter inner mounting frame 10, a mold core fixing frame 18 and a mold core 19; the tool mounting frame 1 and the tool inner mounting frame 10 are annular; the tool inner mounting frame 10 is connected in the tool mounting frame 1 through an inner supporting rod 2; the bottom of the cutter mounting frame 1 is fixed on a mounting plate 8 through cutter supporting mounting feet 7; the mold core 19 is fixed in the tool mounting frame 1 through the mold core 19 fixing frame 18, and the mold core 19 penetrates through the tool inner mounting frame 10; the three embossing devices 3 are uniformly and circumferentially connected to one side, adjacent to the supporting mechanism, of the tool mounting frame 1; the three stamping devices 4 are uniformly and uniformly connected to one side, adjacent to the pushing mechanism, of the cutter mounting frame 1 along the circumferential direction of the cutter mounting frame 1, and the positions of the three stamping devices correspond to the embossing devices 3 respectively; the bottoms of the tool mounting frame 1 and the tool inner mounting frame 10 form through grooves.

Each embossing device 3 comprises a ram 301, a ram guide block 302, a ram advance block 303 and a first cylinder 304; the pressure head 301 is in transmission connection with a first cylinder 304 through a pressure head pushing block 303; the pressure head 301 is arranged in the pressure head guide block 302 in a penetrating way; the first cylinder 304 is fixed on the inner wall of the tool mounting frame 1; the pressure head guide block 302 is fixed with the tool inner mounting frame 10; the ram 301 is disposed toward the mold core 19.

Each punching device 4 includes a punching tool 401, a bit guide block 402, a bit advance block 403, and a hydraulic cylinder 404; the punching cutter 401 is in transmission connection with a hydraulic cylinder 404 through a cutter head pushing block 403; the punching cutter 401 is arranged in the cutter head guide block 402 in a penetrating way; the hydraulic cylinder 404 is fixed on the inner wall of the tool mounting frame 1; the tool bit guide block 402 is fixed with the tool inner mounting frame 10; the punching tool 401 is disposed toward the core 19.

The punching tool 401 has an arc shape.

The propelling mechanism comprises a propelling device 5 and a cylinder supporting frame 6; the propulsion device 5 is fixed on the mounting plate 8 through the cylinder supporting frame 6; the propulsion device 5 comprises a second cylinder 503, a push rod 502 and a sleeve 501; the sleeve 501 is in transmission connection with the second cylinder 503 through the push rod 502; the second cylinder 503 is fixed on the cylinder supporting frame 6; the sleeve 501 is sleeved outside the mold core 19 and forms a through groove matched with the mold core fixing frame 18.

The supporting mechanism comprises a supporting sleeve 11 and a sleeve bracket 12, the supporting sleeve 11 is fixed on the sleeve bracket 12, and the sleeve bracket 12 is fixed on the mounting plate 8; the position of the support sleeve 11 corresponds to the position of the mould core 19.

The cutting device 9 comprises a motor 901, a connecting sleeve 902, a connecting rod 903 and a blade 904; the connecting rod 903 is bent and the first end and the second end of the connecting rod 903 are parallel; the first end of the connecting rod 903 is in transmission connection with the motor 901 through a connecting sleeve 902; a second end of the connecting rod 903 is connected to a blade 904; the motor 901 is fixed to the sleeve holder 12 and is located beside the support sleeve 11.

The friction roller mechanism comprises two friction rollers 13, two roller rotating shafts 14, a friction roller mounting plate 15 and a friction roller bracket 16; the friction roller 13 is rotatably and alternately connected to a friction roller mounting plate 15 through a roller rotating shaft 14; the friction roller mounting plate 15 is fixed on the mounting plate 8 through a friction roller bracket 16; the position of the gap between the two friction rollers 13 corresponds to the position of the support sleeve 11.

The section of the mold core 19 is in a round triangle shape; two grooves which are distributed at intervals are respectively arranged on the three surfaces of the mold core 19; and a rubber gasket is fixed in the groove.

According to the plastic pipe fitting integrated processing equipment provided by the embodiment of the invention, the whole section of plastic pipe fitting to be processed passes through the friction roller mechanism and is inserted into the supporting sleeve 11 until the pipe fitting to be processed is tightly attached to the inner wall of the cutter mounting frame 1, the mold core 19 is just inserted into the plastic pipe fitting to be processed, the punching device 4 starts to work, the three punching devices 4 simultaneously punch the pipe fitting to be processed, after the punching is completed, the punching device 4 returns to the original position, then the pushing device 5 pushes the plastic pipe fitting after the first processing backwards to the designated position, the embossing device 3 starts to work, the three embossing devices 3 sequentially perform embossing work on the plastic pipe fitting after the first processing, when the embossing work is completed, the three embossing devices 3 simultaneously return to the original position, the cutting device 9 starts to work, the processed plastic pipe fitting is cut off, the pushing device 5 returns to the original position, and the dropped small section of plastic pipe fitting is transported out of the device through the conveying device 17, so that the pipe fitting after the processing is convenient to collect the processed pipe fitting.

The tool mounting frame 1 and the tool inner mounting frame 10 are connected through four inner support rods 2, three stamping devices 4 are mounted on the inner side close to the tool mounting frame 1, a hydraulic cylinder 404 in each stamping device 4 is fixedly connected to the tool mounting frame 1, a tool bit guide block 402 in each stamping device 4 is fixedly connected with the tool inner mounting frame 10, the embossing device 3 is mounted on the outer side of the tool mounting frame 1, a first cylinder 304 is fixedly connected with the tool mounting frame 1, a pressure head guide block 302 is fixedly connected with the tool inner mounting frame 10, grooves are formed in bottoms of the tool mounting frame 1 and the tool inner mounting frame 10, a pipe fitting after machining is convenient to fall onto a conveying device 17, a fixed mold core 19 is fixedly connected to the inner part of the tool mounting frame 1, a sleeve on a propelling device 5 is sleeved on the fixed mold core 19, and a cylinder support frame 6 is sleeved on the outer surface of a second cylinder 503.

The hydraulic cylinder 404 pushes the tool bit pushing block 403 to move forward, the tool bit pushing block 403 is fixedly connected with the bottom of the punching tool 401, the punching tool 401 penetrates through the tool bit guide block 402, and during punching, the punching tool 401 punches a plastic pipe fitting to be processed under the action of the hydraulic cylinder 404.

When the plastic pipe to be processed moves to the second station, the tool bits of the three stamping devices 4 stamp the pipe to be processed simultaneously from three directions under the action of the hydraulic cylinder 404, so as to form six clamping claws.

The cylinder promotes the ram propulsion piece 303 to move forward, and ram propulsion piece 303 and the bottom fixed connection of ram 301, ram 301 pass ram guide block 302, and during the knurling, ram 301 carries out knurling to the raw plastic pipe fitting under the effect of first cylinder 304.

When the processed plastic pipe fitting moves to the third station, one pushing mechanism pushes the claw under the pushing of the air cylinder 503, then the other pushing mechanism drives the pressing head 301 to push the corresponding claw inwards, then the rest pushing mechanisms push the corresponding claw inwards in the same way, and the three pushing mechanisms simultaneously retract after the braiding is completed.

When the pipe fitting punching is finished, the pushing device 5 works, the whole section of plastic pipe fitting is pushed backwards to a specified position, the pipe fitting is subjected to embossing by the embossing device 3, after the embossing is finished, the pipe fitting is cut by the cutting device 9, and after the cutting is finished, the pushing device 5 returns to the original position.

When the embossing of the pipe is completed, the cutting device 9 is operated by the motor 901, the blade 904 rotates, and at this time the connecting rod 903 rotates, so that the blade 904 cuts the pipe.

According to the integrated processing equipment for the plastic pipe fitting, disclosed by the embodiment of the invention, the integrated processing equipment is adopted to process the whole pipe fitting, the stamping, embossing and cutting work is placed in one device, and the cutting is performed after the two works are completed, so that the trouble of firstly cutting the pipe fitting into small pipe fittings for processing is eliminated.

The mold core 19 adopts the shape of a rounded triangle, six grooves (three on the top and the bottom respectively, the center interval of each groove is 120 degrees) are arranged on the outer surface of the mold core 19, and a rubber gasket is fixedly connected inside the grooves. The mould core 19 is set so that the stamping of the plastic tube is best achieved.

The punching device 4 pushes the six punching cutters 401 to punch simultaneously by using the three hydraulic cylinders 404, and the cutter heads are arc-shaped, so that the machined parts of the plastic pipe fittings are more easy to tear.

The embossing device 3 adopts three first cylinders 304 to control six pressure heads 301 to press the claws inwards in a differential order, so that the claws are fastened with each other, and the embossing effect is achieved.

According to the integrated processing equipment for the plastic pipe fitting, disclosed by the embodiment of the invention, the integrated processing equipment is adopted to process the whole pipe fitting, the stamping, embossing and cutting work is placed in one device, and the cutting is performed after the two works are completed, so that the trouble of firstly cutting the pipe fitting into small pipe fittings for processing is eliminated.

The mold core 19 adopts the shape of a rounded triangle, six grooves (three on the top and the bottom respectively, the center interval of each groove is 120 degrees) are arranged on the outer surface of the mold core 19, and a rubber gasket is fixedly connected inside the grooves. The mould core 19 is set so that the stamping of the plastic tube is best achieved.

The punching device 4 pushes the six punching tools 401 to punch simultaneously by using the three hydraulic cylinders 404, and the punching tools 401 are arc-shaped, so that the machined part of the plastic pipe fitting is more easy to tear.

The embossing device 3 adopts three air cylinders 304 to control six pressure heads 301 to press the claws inwards in a differential order, so that the claws are fastened with each other, and the embossing effect is achieved.

Wherein, the structure of the punched plastic pipe is shown in fig. 14; the structure of the plastic tube of the embossed plastic tube is shown in fig. 15.

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

Claims (7)

1. The utility model provides a plastics pipe fitting integration processing equipment which characterized in that: comprises a cutter mounting structure, a three-embossing device, a three-stamping device, a propelling mechanism, a mounting plate, a cutting device, a supporting mechanism, a friction roller mechanism and a conveying device; the cutter mounting structure, the propelling mechanism, the supporting mechanism and the friction roller mechanism are fixed on the mounting plate; the propelling mechanism, the cutter mounting structure, the supporting mechanism and the friction roller mechanism are sequentially arranged; the embossing device and the stamping device are fixed on the cutter mounting structure; the cutting device is fixed on the supporting mechanism; the conveying device is arranged below the cutter mounting structure, the supporting mechanism and the friction roller mechanism;

the cutter mounting structure comprises a cutter mounting frame, four inner support rods, a cutter supporting and mounting foot, a cutter inner mounting frame, a mold core fixing frame and a mold core; the tool mounting frame and the tool inner mounting frame are annular; the tool inner mounting frame is connected into the tool mounting frame through the inner supporting rod; the bottom of the cutter mounting frame is fixed on the mounting plate through the cutter supporting and mounting foot; the mold core is fixed in the tool mounting frame through the mold core fixing frame, and the mold core penetrates through the tool mounting frame; the embossing devices are uniformly and circumferentially connected to one side, adjacent to the supporting mechanism, of the cutter mounting frame; the three stamping devices are uniformly and circumferentially connected to one side, adjacent to the pushing mechanism, of the cutter mounting frame in the circumferential direction of the cutter mounting frame, and the positions of the three stamping devices correspond to the embossing devices respectively; the bottoms of the cutter mounting frame and the cutter inner mounting frame form a through groove;

each embossing device comprises a pressure head, a pressure head guide block, a pressure head pushing block and a first cylinder; the pressure head is in transmission connection with the first cylinder through the pressure head pushing block; the pressure head penetrates through the pressure head guide block; the first cylinder is fixed on the inner wall of the tool mounting frame; the pressure head guide block is fixed with the cutter inner mounting frame; the pressure head is arranged towards the mold core;

each punching device comprises a punching cutter, a cutter head guide block, a cutter head pushing block and a hydraulic cylinder; the punching cutter is in transmission connection with the hydraulic cylinder through the cutter head pushing block; the punching cutter is arranged in the cutter head guide block in a penetrating way; the hydraulic cylinder is fixed on the inner wall of the cutter mounting frame; the tool bit guide block is fixed with the tool inner mounting frame; the punching tool is arranged towards the mould core.

2. The plastic pipe integrated machining apparatus of claim 1, wherein the punching tool is arcuate.

3. The plastic pipe integrated processing apparatus of claim 2, wherein the propulsion mechanism comprises a propulsion device and a cylinder support; the propelling device is fixed on the mounting plate through the cylinder supporting frame; the propelling device comprises a second cylinder, a push rod and a sleeve; the sleeve is in transmission connection with the second cylinder through the push rod; the second cylinder is fixed on the cylinder supporting frame; the sleeve is sleeved outside the mold core and forms a through groove matched with the mold core fixing frame.

4. A plastic pipe fitting integrated machining apparatus according to claim 3, wherein the support mechanism comprises a support sleeve and a sleeve mount, the support sleeve being secured to the sleeve mount, the sleeve mount being secured to the mounting plate; the position of the support sleeve corresponds to the position of the mold core.

5. The plastic pipe integrated processing apparatus according to claim 4, wherein the cutting device comprises a motor, a connecting sleeve, a connecting rod and a blade; the connecting rod is bent, and the first end and the second end of the connecting rod are parallel; the first end of the connecting rod is in transmission connection with the motor through the connecting sleeve; the second end of the connecting rod is connected with the blade; the motor is fixed on the sleeve bracket and is positioned beside the supporting sleeve.

6. The plastic pipe fitting integrated processing device according to claim 5, wherein the friction roller mechanism comprises two friction rollers, two roller shafts, a friction roller mounting plate and a friction roller bracket; the friction roller is rotatably connected to the friction roller mounting plate at intervals through the roller rotating shaft; the friction roller mounting plate is fixed on the mounting plate through the friction roller bracket; the gap position between the two friction rollers corresponds to the position of the supporting sleeve.

7. The plastic pipe integrated processing device according to claim 6, wherein the cross section of the mold core is in a rounded triangle shape; two grooves which are distributed at intervals are respectively arranged on the three surfaces of the mold core; and a rubber gasket is fixed in the groove.