CN112518029A - Novel glass filling process - Google Patents

Abstract

The invention discloses a novel glass filling process, which belongs to the technical field of hollow glass processing and comprises the following steps; s1, selecting a cover plate which is matched with the size of the hollow glass and is fixed with a baffle at the end part, and selecting a U-shaped aluminum section bar which is longer than the cover plate in length and has an inclined inner bottom surface; s2, inserting the cover plate on the aluminum profile, then placing the aluminum profile on the operation platform, and fixing a limiting plate at one end of the aluminum profile; s3, sliding the cover plate, so that a pouring opening and a movable opening are formed at two ends of the aluminum profile; s4, starting a filling machine on the operation platform to fill a drying agent into the aluminum profile through a filling opening; s5, stopping pouring by the pouring machine when the drying agent to be poured into the aluminum profile is close to the edge of the cover plate, and then starting the cutting device to cut off redundant aluminum profiles along the edge of the cover plate; and S6, installing a sealing piece at the cut part of the aluminum profile. The process improves the working efficiency, reduces the burden of operators and saves time and labor.

Description

Novel glass filling process

Technical Field

The invention relates to the technical field of hollow glass processing, in particular to a novel glass filling process.

Background

With the development of society, hollow glass is popular among people due to good performances of heat preservation, heat insulation and the like, and is widely applied to various windows. In the production process of hollow glass, an aluminum spacer bar is generally used to separate two or more pieces of glass and is connected by a sealant, holes are simultaneously punched on the aluminum spacer bar, and a corresponding drying agent, such as a molecular sieve adsorption material, is pre-installed in a hollow cavity of the aluminum spacer bar to ensure the adsorption of particles or moisture in an air layer in the hollow glass and the performance of the hollow glass.

The hollow glass drying agent is mainly suitable for absorbing moisture in the interlayer gas of the hollow glass, and continuously absorbs the moisture entering the interlayer in the service life of the hollow glass; the glass fogging is avoided, the hollow glass can still keep smooth and transparent even at a very low temperature, and the heat preservation, sound insulation and heat insulation performances of the hollow glass are improved, so that the energy consumption is reduced, and the service life of the hollow glass is fully prolonged. The 3A molecular sieve has strong moisture absorption capacity, is used for purifying gas, and is prevented from being directly exposed in the air during storage. The 3A molecular sieve which has long storage time and is hygroscopic should be regenerated before being used. The molecular sieve should not contact oil and liquid water when used.

At present, when the drying agent is filled into the aluminum spacing bar, a filling gun is generally adopted to be filled by being held by a worker, the filling mode has the problem of low filling efficiency, and the rapid requirement of people on hollow glass production cannot be met.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a novel glass filling process.

In order to achieve the purpose, the invention provides the following technical scheme:

a novel glass filling process comprises the following steps;

s1, selecting a cover plate which is matched with the size of the hollow glass and the end part of which is fixed with a baffle, and selecting a U-shaped aluminum section bar which is longer than the cover plate in length and the inner bottom surface of which is inclined for standby;

s2, inserting the cover plate on the aluminum profile to enable the cover plate to be covered on the top of the aluminum profile, then placing the aluminum profile on an operation platform, and fixing a limiting plate at one end of the aluminum profile;

s3, sliding the cover plate to enable the cover plate to be located in the middle of the aluminum profile, so that a pouring opening and a movable opening are formed in two ends of the aluminum profile, the pouring opening is located on the side with the higher horizontal height of the inner bottom surface of the aluminum profile, and the movable opening is located on the side with the lower horizontal height of the inner bottom surface of the aluminum profile; the baffle is fixed at one end of the cover plate, and the movable port is positioned between the baffle and the limiting plate;

s4, starting a filling machine on the operating platform to fill a drying agent into the aluminum profile through the filling port, wherein the drying agent entering the aluminum profile moves along the inner bottom surface of the aluminum profile, so that the baffle is pushed to be in contact with the limiting plate;

s5, stopping pouring by the pouring machine when the drying agent to be poured into the aluminum profile is close to the edge of the cover plate, and then starting a cutting device to cut off the redundant aluminum profile along the edge of the cover plate by the cutting device;

s6, installing a sealing piece at the cutting position of the aluminum section bar, and sealing the aluminum section bar through the sealing piece.

More preferably: the aluminum profile positioning device is characterized in that a positioning plate is fixed on the operating platform, the aluminum profile is placed on the operating platform, one end, far away from the limiting plate, of the aluminum profile is placed at the positioning plate, and therefore the end face of the aluminum profile is in contact with the positioning plate.

More preferably: the positioning plate is fixedly provided with two positioning blocks, and the distance between the two positioning blocks is the same as the width of the aluminum profile;

the aluminum profile is placed when the operation platform, will the aluminum profile is placed between two locating pieces, and makes the locating plate be located the aluminum profile for the other end of limiting plate.

More preferably: a plurality of through holes are formed in the cover plate, and the through holes are uniformly distributed in the cover plate.

More preferably: the aluminum profile cover plate is characterized in that a sliding block is fixed to the bottom of the cover plate, sliding grooves which are formed in the two side walls of the aluminum profile are formed in the length direction of the aluminum profile and are matched with the sliding block, and the sliding block is inserted into the sliding grooves when the cover plate is inserted into the aluminum profile, so that the cover plate is in sliding fit with the aluminum profile.

More preferably: in step S5, the cutting device includes a support bar, a fixing plate, a dicing saw, a cylinder, a motor, and a base;

the supporting rods are positioned on two opposite sides of the aluminum profile, the lower ends of the supporting rods are fixed on the operating platform, the upper ends of the supporting rods are fixed with the fixed plate, the air cylinders are installed on the fixed plate, the base is positioned below the fixed plate, and the air cylinders are used for driving the fixed plate to move up and down;

the motor is installed on the base, the slitting saw is circular and the middle part is fixed with the pivot, the pivot is fixed on the motor output shaft, the aluminium alloy is close to limiting plate one end with interval between the slitting saw with apron length is the same.

More preferably: a support frame is fixed on the operating platform, and the filling machine is installed on the support frame.

More preferably: the sealing piece is detachably connected with the cover plate.

More preferably: the sealing piece comprises a sealing plate, an upper fixing block, a lower fixing block and a screw, wherein a bump is fixed on the sealing plate, the upper fixing block is fixed on the bump, the lower fixing block is fixed on the inner side of the sealing plate, and the upper fixing block and the lower fixing block correspond to each other up and down;

when sealing the board installation, will go up the fixed block with the fixed block is followed respectively down both sides insert about the apron, go up the fixed block and all seted up the mounting hole down on the fixed block, the screw is installed just from top to bottom passes in proper order in the mounting hole go up fixed block, apron and lower fixed block.

More preferably: the cover plate is provided with a clamping groove matched with the lug on the end face far away from one end of the baffle, and the lug is inserted into the clamping groove when the sealing plate is installed.

In conclusion, the invention has the following beneficial effects: the invention adopts the split type aluminum spacing bar, and is more flexible and convenient to use. The drying agent is filled by using the filling machine, and the cutting device is used for cutting the redundant aluminum profiles, so that the working efficiency is improved, the burden of operators is reduced, and the time and the labor are saved. When the drying agent is poured, the aluminum profile is horizontally placed on the operating platform, the drying agent can be fully poured into the aluminum profile without vertically or obliquely placing the aluminum profile, and the occupied space of equipment is saved. In addition, when the drying agent is poured, the cover plate does not need to be manually pushed to move, the cover plate can be pushed to slide on the aluminum profile through the baffle plate through the rolling inertia of the drying agent, and the use is simple and convenient.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment, which is mainly used for embodying a positioning structure of an aluminum profile and a cover plate;

FIG. 2 is a schematic view of a partial structure of the embodiment, which is mainly used for embodying the installation structure of the aluminum profile and the cover plate;

FIG. 3 is a schematic partial structure diagram of the embodiment, which is mainly used for embodying the specific structure of the cutting device;

FIG. 4 is a schematic view of a partial structure of the embodiment, which is mainly used for embodying the installation structure of the aluminum profile and the cover plate;

FIG. 5 is a partial schematic structural view of an embodiment, which is mainly used for embodying a mounting structure of a sealing member;

fig. 6 is a partially cross-sectional schematic view of an embodiment, primarily for embodying the mounting structure of the closure.

In the figure, 1, an operation platform; 2. an aluminum profile; 3. a cover plate; 4. a through hole; 5. a baffle plate; 6. a limiting plate; 7. a cutting device; 71. a support bar; 72. a fixing plate; 73. cutting and sawing; 74. a cylinder; 75. a motor; 76. a base; 8. a support frame; 9. positioning blocks; 10. positioning a plate; 11. a chute; 12. mounting holes; 13. a card slot; 14. a slider; 15. a closure member; 151. a sealing plate; 152. a bump; 153. an upper fixed block; 154. a screw; 155. a lower fixed block; 16. an infusion port; 17. a movable opening.

Detailed Description

The invention is described in detail below with reference to the figures and examples.

Example (b): a novel glass filling process, as shown in fig. 1-6, comprising the following steps;

s1 selection of cover plate 3 and aluminum profile 2

Selecting a cover plate 3 which is matched with the size of the hollow glass and the end part of which is fixed with a baffle 5, and selecting a U-shaped aluminum section bar 2 which is longer than the cover plate 3 and the inner bottom surface of which is inclined for standby.

In the above technical solution, generally, aluminum profiles 2 filled with drying agent are installed on four sides of the hollow glass, so that the cover plate 3 and the aluminum profiles 2 are selected according to the length of the sides of the hollow glass. During selection, the cover plate 3 with the same length as the side edge of the hollow glass is selected, the U-shaped aluminum profile 2 with the length longer than that of the cover plate 3 is selected, the inner bottom surface of the U-shaped aluminum profile 2 needs to be designed in an inclined mode, the inner bottom surface is smooth and free of unevenness, and therefore the 3A molecular sieve drying agent can move along the inner bottom surface of the U-shaped aluminum profile 2. In general, the inclination angle of the inner bottom surface of the U-shaped aluminum profile 2 is 1 to 3 °, preferably 1 to 2 °, and in the present embodiment, the inclination angle of the inner bottom surface of the U-shaped aluminum profile 2 is 2 °.

S2, positioning and placing aluminum profile 2 and cover plate 3

Insert apron 3 on aluminium alloy 2 to make apron 3 lid establish at aluminium alloy 2 top, then place aluminium alloy 2 on operation platform 1, aluminium alloy 2 one end is fixed with limiting plate 6.

Preferably, the operating platform 1 is horizontally arranged, and a positioning plate 10 is fixed at one end of the operating platform 1, and the positioning plate 10 is vertically arranged at one end of the operating platform 1. When aluminium alloy 2 was placed at operation platform 1, kept away from limiting plate 6 one end with aluminium alloy 2 and placed in locating plate 10 department to make 2 terminal surfaces of aluminium alloy and the contact of locating plate 10, in order to prevent that aluminium alloy 2 from removing.

Preferably, the positioning plate 10 is fixed with two positioning blocks 9, and the distance between the two positioning blocks 9 is the same as the width of the aluminum profile 2. When the aluminum profile 2 is placed on the operating platform 1, the aluminum profile 2 is placed between the two positioning blocks 9, and the positioning plate 10 is located at the other end of the aluminum profile 2 opposite to the limiting plate 6. Therefore, the aluminum profile 2 can be accurately placed, and the aluminum profile 2 is placed at the designated position on the operation platform 1.

Preferably, a plurality of circular through holes 4 are formed in the cover plate 3, and the through holes 4 are uniformly distributed on the cover plate 3. Therefore, the aluminum profile 2 can be communicated with the hollow glass interlayer, so that water molecules in the hollow glass interlayer gas can be adsorbed by the drying agent in the aluminum profile 2.

Preferably, 3 bottom both sides of apron all are fixed with slider 14, and 2 both sides walls of aluminium alloy are all seted up along 2 length direction of aluminium alloy setting and with the spout 11 of 14 looks adaptations of slider. When the cover plate 3 is inserted into the aluminum profile 2, the sliding block 14 is required to be inserted into the sliding groove 11 from the end far away from the limiting plate 6, so that the cover plate 3 is in sliding fit with the aluminum profile 2, and the opening at the top of the U-shaped aluminum profile 2 is covered by the cover plate 3. The cover plate 3 is arranged to close the top opening of the U-shaped aluminum profile 2, so that the drying agent is filled in the U-shaped aluminum profile 2.

S3, adjusting the position of the cover plate 3

The cover plate 3 is slid to enable the cover plate 3 to be located in the middle of the aluminum profile 2, so that a filling opening 16 and a moving opening 17 are formed at two ends of the aluminum profile 2, the filling opening 16 is located on the side, higher in bottom level, of the aluminum profile 2, and the moving opening 17 is located on the side, lower in bottom level, of the aluminum profile 2. Baffle 5 is fixed in apron 3 one end and is used for contacting with limiting plate 6, and the expansion gap 17 is located between baffle 5 and limiting plate 6.

In the above technical scheme, the setting of limiting plate 6 is mainly in order to block baffle 5, in case the drier fills the in-process, apron 3 continues to slide on aluminium alloy 2, causes apron 3 to break away from aluminium alloy 2. Because the pouring opening 16 is positioned on the higher side of the bottom surface horizontal height in the aluminum profile 2, and the movable opening 17 is positioned on the lower side of the bottom surface horizontal height in the aluminum profile 2, when the drying agent is poured into the pouring opening 16, the drying agent slides along the bottom surface in the aluminum profile 2, so that the baffle 5 is pushed, the cover plate 3 moves towards the limiting plate 6, the caliber of the movable opening 17 is gradually reduced until the movable opening 17 completely disappears, the caliber of the pouring opening 16 is gradually increased, and when the movable opening 17 completely disappears, the caliber of the pouring opening 16 is the largest at the moment.

S4, pouring desiccant

The pouring machine on the operation platform 1 is started to pour the drying agent into the aluminum profile 2 through the pouring opening 16, and the drying agent entering the aluminum profile 2 moves along the inner bottom surface of the aluminum profile 2, so that the baffle 5 is pushed to be in contact with the limiting plate 6.

Preferably, operating platform 1 is fixed with support frame 8 near locating plate 10 one side, and the filling machine is installed on support frame 8, and the filling machine is prior art, therefore the concrete structure and the theory of operation of filling machine are no longer repeated herein.

In above-mentioned technical scheme, the drier fills the in-process, and along with the increase of drier perfusion volume, baffle 5 is close to limiting plate 6 gradually, and after baffle 5 and limiting plate 6 contacted, apron 3 no longer removed, aluminium alloy 2 will be filled up gradually to the drier this moment.

S5 redundant profile for cutting end part of aluminum profile 2

When the drying agent to be poured into the aluminum profile 2 is close to the edge of the cover plate 3, the pouring machine stops pouring, and then the cutting device 7 is started, so that the cutting device 7 cuts off the redundant aluminum profile 2 along the edge of the cover plate 3.

In above-mentioned technical scheme, in order to prevent to pour into too much drier, cause the drier extravagant, when the drier that pours into in aluminium alloy 2 is close to apron 3 edge, should stop the filling machine immediately, alright follow apron 3 and cut aluminium alloy 2 for the terminal surface edge of baffle 5 other end this moment to make aluminium alloy 2 cutting plane flush with 3 terminal surfaces of apron. After the aluminum profile 2 at the redundant end is cut off, the length of the aluminum profile 2 at the moment is just matched with that of the hollow glass.

Preferably, the cutting device 7 includes a support rod 71, a fixing plate 72, a dicing saw 73, an air cylinder 74, a motor 75, and a base 76. The support rods 71 are located on two opposite sides of the aluminum profile 2, the lower ends of the support rods 71 are fixed on the operating platform 1, and the upper ends of the support rods 71 are fixed with the fixing plate 72. The cylinder 74 is installed on the fixed plate 72, and the base 76 is located the fixed plate 72 below, and the cylinder 74 is used for driving the fixed plate 72 to move up and down, and specifically, the cylinder 74 includes the piston rod, and the lower end of the piston rod of the cylinder 74 and the base 76 are fixedly connected. The motor 75 is installed on the base 76, the dicing saw 73 is circular, the middle part of the dicing saw 73 is fixed with a rotating shaft, the central shaft of the rotating shaft is overlapped with the central shaft of the dicing saw 73, and the rotating shaft is fixed on the output shaft of the motor 75. The radial direction of slitting saw 73 is the same with 2 width direction of aluminium alloy, and aluminium alloy 2 is close to spacing between 6 one end of limiting plate and the slitting saw 73 and is the same with apron 3 length to when making apron 3 remove the unable shift position, slitting saw 73 side just flushes with apron 3 terminal surface.

In the above technical scheme, after the drying agent is filled, the cylinder 74 is started to enable the base 76 to drive the motor 75 and the dicing saw 73 to move downwards, when the dicing saw 73 is close to the aluminum profile 2, the motor 75 is started, and at the moment, the dicing saw 73 cuts the aluminum profile 2 in the downward moving process, so that the redundant aluminum profile 2 is cut off.

S6, sealing the end face of the cut aluminum profile 2

After the excess aluminum profile 2 is cut off, a sealing member 15 is installed at the cut portion of the aluminum profile 2 to seal the aluminum profile 2 by the sealing member 15, and the cover plate 3 and the aluminum profile 2 are integrated by the sealing member 15 to restrict the cover plate 3 from sliding on the aluminum profile 2.

Preferably, the closure 15 is detachably connected to the cover 3 in order to mount the closure 15.

Preferably, the sealing member 15 includes a sealing plate 151, an upper fixing block 153, a lower fixing block 155, and screws 154. The sealing plate 151 is fixed with a projection 152, an upper fixing block 153 is fixed on the projection 152, a lower fixing block 155 is fixed on the inner side of the sealing plate 151, and the upper fixing block 153 and the lower fixing block 155 are vertically corresponding. When the sealing plate 151 is mounted, the upper fixing block 153 and the lower fixing block 155 are inserted along the upper and lower sides of the cover plate 3, respectively, so that the upper fixing block 153 and the lower fixing block 155 are in contact with the top surface and the bottom surface of the cover plate 3, respectively. The cover plate 3, the upper fixing block 153 and the lower fixing block 155 are all provided with mounting holes 12, and screws 154 are mounted in the mounting holes 12 and sequentially penetrate through the upper fixing block 153, the cover plate 3 and the lower fixing block 155 from top to bottom, so that the sealing plate 151 is fixed on the cover plate 3. The sealing plate 151 is sealed on the end face of the aluminum profile 2 so that the aluminum profile 2 and the cover plate 3 are integrally connected. The cover plate 3 is provided with a slot 13 matching with the protrusion 152 on the end surface far away from the baffle 5, and when the sealing plate 151 is installed, the protrusion 152 is inserted into the slot 13, so that the sealing plate 151 is limited in the slot 13, and the sealing plate 151 is conveniently positioned and inserted.

In the above technical solution, after the excess aluminum profile 2 is cut off, the sealing plate 151 is inserted into the end face of the aluminum profile 2, so that the protrusion 152 is inserted into the slot 13, and at this time, the screw 154 is screwed on the upper fixing block 153, the cover plate 3 and the lower fixing block 155, so that the sealing plate 151 is fixed at the other end of the aluminum profile 2 opposite to the limiting plate 6, and the desiccant is prevented from leaking from the end face of the aluminum profile 2.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that several improvements and modifications without departing from the principle of the present invention will occur to those skilled in the art, and such improvements and modifications should also be construed as within the scope of the present invention.

Claims (10)

1. A novel glass filling process is characterized in that: comprises the following steps;

s1, selecting a cover plate (3) which is matched with the size of the hollow glass and is fixed with a baffle (5) at the end part, and selecting a U-shaped aluminum section (2) which is longer than the cover plate (3) in length and has an inclined inner bottom surface for standby;

s2, inserting the cover plate (3) on the aluminum profile (2) so that the cover plate (3) is covered on the top of the aluminum profile (2), then placing the aluminum profile (2) on an operation platform (1), and fixing a limiting plate (6) at one end of the aluminum profile (2);

s3, sliding the cover plate (3) to enable the cover plate (3) to be located in the middle of the aluminum profile (2), so that a pouring opening (16) and a movable opening (17) are formed in two ends of the aluminum profile (2), the pouring opening (16) is located on the side with the higher horizontal height of the inner bottom surface of the aluminum profile (2), and the movable opening (17) is located on the side with the lower horizontal height of the inner bottom surface of the aluminum profile (2); the baffle (5) is fixed at one end of the cover plate (3), and the movable port (17) is positioned between the baffle (5) and the limiting plate (6);

s4, starting a pouring machine on the operating platform (1) to pour a drying agent into the aluminum profile (2) through the pouring opening (16), wherein the drying agent entering the aluminum profile (2) moves along the inner bottom surface of the aluminum profile (2) to push the baffle (5) so that the baffle (5) is in contact with the limiting plate (6);

s5, stopping pouring by the pouring machine when the drying agent to be poured into the aluminum profile (2) is close to the edge of the cover plate (3), and then starting a cutting device (7) to enable the cutting device (7) to cut off the redundant aluminum profile (2) along the edge of the cover plate (3);

s6, installing a sealing piece (15) at the cutting position of the aluminum profile (2) so as to seal the aluminum profile (2) through the sealing piece (15).

2. The novel glass filling process according to claim 1, wherein: be fixed with locating plate (10) on operation platform (1), aluminium alloy (2) are placed during operation platform (1), will aluminium alloy (2) are kept away from limiting plate (6) one end is placed locating plate (10) department, so that aluminium alloy (2) terminal surface with locating plate (10) contact.

3. The novel glass filling process according to claim 2, wherein: positioning blocks (9) are fixed on the positioning plate (10), two positioning blocks (9) are arranged, and the distance between the two positioning blocks (9) is the same as the width of the aluminum profile (2);

the aluminum profile (2) is placed when the operation platform (1), the aluminum profile (2) is placed between the two positioning blocks (9), and the positioning plates (10) are located at the other ends, opposite to the limiting plates (6), of the aluminum profile (2).

4. The novel glass filling process according to claim 1, wherein: a plurality of through holes (4) are formed in the cover plate (3), and the through holes (4) are uniformly distributed in the cover plate (3).

5. The novel glass filling process according to claim 1, wherein: apron (3) bottom is fixed with slider (14), aluminium alloy (2) both sides wall has all been seted up the edge aluminium alloy (2) length direction set up and with spout (11) of slider (14) looks adaptation, apron (3) are inserted and are established during aluminium alloy (2), will slider (14) are inserted and are established in spout (11), so that apron (3) with aluminium alloy (2) sliding fit.

6. The novel glass filling process according to claim 1, wherein: in step S5, the cutting device (7) includes a support bar (71), a fixing plate (72), a dicing saw (73), a cylinder (74), a motor (75), and a base (76);

the supporting rods (71) are positioned on two opposite sides of the aluminum profile (2), the lower ends of the supporting rods (71) are fixed on the operating platform (1), the upper ends of the supporting rods (71) are fixed with the fixing plate (72), the air cylinders (74) are installed on the fixing plate (72), the base (76) is positioned below the fixing plate (72), and the air cylinders (74) are used for driving the fixing plate (72) to move up and down;

install motor (75) on base (76), slitting saw (73) are circular and the middle part is fixed with the pivot, the pivot is fixed on motor (75) output shaft, aluminium alloy (2) are close to limiting plate (6) one end with interval between slitting saw (73) with apron (3) length is the same.

7. The novel glass filling process according to claim 1, wherein: a support frame (8) is fixed on the operating platform (1), and the filling machine is installed on the support frame (8).

8. The novel glass filling process according to claim 8, wherein: the sealing piece (15) is detachably connected with the cover plate (3).

9. The novel glass filling process according to claim 8, wherein: the sealing piece (15) comprises a sealing plate (151), an upper fixing block (153), a lower fixing block (155) and screws (154), wherein a bump (152) is fixed on the sealing plate (151), the upper fixing block (153) is fixed on the bump (152), the lower fixing block (155) is fixed on the inner side of the sealing plate (151), and the upper fixing block (153) corresponds to the lower fixing block (155) up and down;

when sealing board (151) installation, will go up fixed block (153) with fixed block (155) is followed respectively down both sides insert about apron (3), last fixed block (153) and all seted up mounting hole (12) down on fixed block (155), screw (154) are installed in mounting hole (12) and from top to bottom pass in proper order go up fixed block (153), apron (3) and fixed block (155) down.

10. The novel glass filling process according to claim 8, wherein: the cover plate (3) is provided with a clamping groove (13) matched with the convex block (152) on the end face far away from one end of the baffle plate (5), and the convex block (152) is inserted into the clamping groove (13) when the sealing plate (151) is installed.

Images