CN210007520U

CN210007520U - Motor O-shaped ring, wave washer and rotor assembly equipment

Info

Publication number: CN210007520U
Application number: CN201920682640.3U
Authority: CN
Inventors: 陈沛东; 周军; 徐全; 刘敬
Original assignee: SUZHOU SANDE PRECISION MACHINERY CO Ltd
Current assignee: SUZHOU SANDE PRECISION MACHINERY CO Ltd
Priority date: 2019-05-14
Filing date: 2019-05-14
Publication date: 2020-01-31
Anticipated expiration: 2029-05-14

Abstract

The utility model discloses an kind of motor O type circle, wave washer and rotor assembly equipment relates to motor assembly field, the reciprocating impact tunnel drilling machine comprises a machine body, be provided with the end cover frock that is used for placing the end cover on the fuselage, O type circle assembly devices, oiling station, wave washer frock, wave washer detection mechanism, a rotor base for placing the rotor, a transmission device for transmitting rotor base, press mechanism, be used for getting the end cover from the end cover frock upper clamp to place O type circle assembly devices on with the end cover clamp again get the clamping jaw of placing on the oiling station and be used for getting the end cover from the oiling station on press from the end cover clamp to place the end cover clamp again and get the second clamping jaw of placing on the rotor base, the utility model discloses can strut O type circle automatically and with in the recess of O type circle ejecting to the end cover, can the automated inspection wave washer have or not reach the quantity of wave washer, can carry out the oil to O type circle automatically, can transmit rotor and end cover automatically and press into the casing with it in.

Description

Motor O-shaped ring, wave washer and rotor assembly equipment

Technical Field

The utility model relates to an kind of motor assembly field, in particular to motor O type circle, wave washer and rotor rigging equipment.

Background

The O-shaped ring is rubber sealing rings with circular sections, the O-shaped ring plays a sealing role in a static or moving state, when the O-shaped ring is assembled, the O-shaped ring needs to be expanded to a diameter larger than that of an assembly part, then the O-shaped ring is placed in a designated groove or on other parts, the O-shaped ring is manually expanded and placed on the designated groove or other parts, the working efficiency is low, a large amount of manpower is needed, and therefore O-shaped ring assembling mechanisms capable of automatically expanding the O-shaped ring and placing the O-shaped ring on a designated position are needed.

Because the wave washer has a small structure and a small thickness, is generally operated manually when the wave washer is installed at a required position, the time and labor are wasted, the installation position is not accurate, and the installation quality is influenced, so that an automatic installation mechanism of wave washers needs to be designed, the automatic installation mechanism can be used for installing more or less wave washers when the wave washers are installed, the wave washers are not detected and directly flow into a lower flow, the produced products do not meet the requirements, the materials are greatly wasted, and therefore wave washer detection mechanisms for detecting the number of the installed wave washers are needed.

The assembling machine is characterized in that when the rotor is installed in a machine shell, great force is needed to press the rotor into the machine shell, manual pressing is difficult to achieve, the working efficiency is extremely low, assembling machines capable of automatically pressing the rotor into the machine shell are needed, meanwhile, an O-shaped ring and a wave-shaped gasket are needed to be installed on an end cover, oil is applied to the O-shaped ring, the number of the wave-shaped gaskets is detected, the end cover with the O-shaped ring and the wave-shaped gasket installed thereon is placed on the rotor, then the rotor and the end cover are installed in the machine shell, long production lines are needed, a large amount of manpower is needed to complete the assembly, motor O-shaped rings, the number of the wave-shaped gaskets can be automatically installed on the end cover, the wave-shaped gaskets are automatically installed on the end cover, the end cover and the rotor are automatically moved to the press-loading machine and.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provide kinds of motor O type circle, wave form packing ring and the rotor rigging equipment of impressing in the casing with end cover, O type circle, wave form packing ring and rotor.

The utility model provides a technical scheme that its technical problem adopted is that the reciprocating impact tunnel drilling machine comprises a machine body, be provided with the end cover frock that is used for placing the end cover on the fuselage, O type circle assembly devices, oiling station, wave washer frock, wave washer detection mechanism, a rotor base for placing the rotor, a transmission device for transmitting rotor base, a press machine constructs, be used for getting the end cover from the end cover frock on press from both sides to place O type circle assembly devices on press from both sides the clamping jaw on the oiling station and be used for getting the end cover from the oiling station on press from both sides to place the second clamping jaw on the rotor base on pressing from both sides from the wave washer frock again with the end cover.

, the end cover tool comprises a base, a positioning column for positioning the end cover is arranged on the base, a sensor is arranged on the side of the base, and the sensor is used for detecting whether the end cover tool is provided with the end cover or not.

, the O-shaped ring assembling mechanism comprises a cylinder, an ejection block used for ejecting the O-shaped ring and a clamping jaw valve used for opening the O-shaped ring are arranged on the upper end face of the cylinder, the clamping jaw valve comprises a third clamping jaw, a rectangular block used for hooking the O-shaped ring to prevent the O-shaped ring from falling off is arranged on the upper portion of the third clamping jaw, a second sensor used for detecting the O-shaped ring is arranged on the side of the cylinder on the body, the cylinder is used for driving the ejection block to eject upwards and driving the clamping jaw valve to contract or open, and the second sensor is used for detecting whether the O-shaped ring exists on the clamping jaw valve.

, the oiling device comprises a second base, a rotating disc is arranged on the second base, a power mechanism for driving the rotating disc to rotate is arranged below the second base, a second positioning column for positioning an end cover is arranged on the rotating disc, an oiling roller is arranged on the side of the rotating disc, a mounting plate is arranged above the oiling roller, the oiling roller is connected with the mounting plate, a second cylinder for driving the mounting plate to horizontally move is arranged at the end, far away from the oiling roller, of the mounting plate, an ejection mechanism is arranged on the second cylinder, the mounting plate is arranged on the ejection mechanism, the mounting plate horizontally moves along with the ejection mechanism, an oil valve is connected to the side of the ejection mechanism, the oil valve horizontally moves along with the ejection mechanism, an oil outlet is arranged on the oil valve and is connected with the oiling roller, and oil in the oil valve flows to the oiling roller through the oil outlet.

, the wave washer tool comprises a third base, wherein a supporting column is arranged on the third base, a supporting disc is arranged at the end far away from the third base on the supporting column, the supporting disc comprises a supporting disc upper portion and a supporting disc lower portion, the width of the supporting disc upper portion is smaller than that of the supporting disc lower portion, an upper groove and a lower groove which are communicated with each other are formed in the supporting disc, the supporting disc upper portion is narrow and used for positioning the wave washer to prevent the wave washer from deviating, the supporting disc lower portion is wide and used for supporting the wave washer to prevent the wave washer from falling, and the upper groove and the lower groove which are communicated with each other are formed in the supporting disc to facilitate clamping.

is that the wave washer detection mechanism includes a third air cylinder, a pressing mechanism for pressing the wave washer and a clamping jaw mechanism for clamping the wave washer are arranged on the third air cylinder, the clamping jaw mechanism includes a clamping jaw for clamping the wave washer and a fourth air cylinder for driving the clamping jaw to open or close, a detector for detecting whether the wave washer exists and detecting the number of the wave washers is arranged on the clamping jaw, the detector moves along with the up-and-down movement of the clamping jaw, the detector judges whether the wave washer exists or not and the number of the wave washers according to the distance between the two clamping jaws when the wave washer is clamped by the clamping jaw on the clamping jaw mechanism, the pressing mechanism includes a pressing plate for pressing the wave washer and a fifth air cylinder for driving a pressing plate to move up and down, the pressing plate is used for pressing the wave washer on the wave washer holder tool to prevent the wave washer from coming out of the wave washer holder, the head of the pressing plate is arranged in a circular arc shape, the pressing the area of the wave washer on the aspect of the wave washer is arranged to make the pressed on the aspect of the wave washer more stable, and a space for.

, the transmission mechanism comprises a sixth cylinder, a third connecting block is arranged on the sixth cylinder, the third connecting block is connected with a rotor base for placing the rotor, a guide rail is arranged on the lower portion of the rotor base, the rotor base moves horizontally along the guide rail, a third sensor is arranged on the side of the rotor base, and the sixth cylinder is used for driving the rotor base to move horizontally on the guide rail, so that the rotor and the end cover are transmitted to the lower portion of the press mechanism.

the pressing mechanism includes an electronic press, a floating joint is disposed on the lower portion of the electronic press, a support plate is disposed on the lower portion of the floating joint, a third guide rail is disposed on the side of the support plate, a slider is disposed on the upper end face of the support plate, the slider is disposed on the third guide rail, the slider moves up and down along the third guide rail under the driving of the electronic press, a seventh cylinder is disposed on the side of the support plate away from the third guide rail, a seventh connection block is disposed on the seventh cylinder, the seventh cylinder drives a fifth connection block to move horizontally, a second connection block is disposed on the lower portion of the connection block, a main press head for pressing a rotor into a casing is disposed on the lower portion of the second connection block, an eighth cylinder is disposed on the lower portion of the end of the second connection block away from the main press head, a fifth clamping jaw is disposed on the eighth cylinder, the eighth cylinder drives the fifth cylinder to contract or move horizontally, the fifth clamping jaw is disposed under the driving of the seventh cylinder, the fifth clamping jaw is disposed on the lower portion of the support block, a support is disposed on the lower end face of the support, a support frame is disposed on the support, a support frame is disposed on the support frame, a support frame.

The utility model has the advantages that: o type circle assembly devices can strut O type circle automatically and ejecting out the recess of end cover with O type circle in, the detector can automated inspection wave form packing ring have or not and wave form packing ring's quantity, prevent that too much or too little wave form packing ring from installing on the position that needs the installation, the product that makes the production can not be because of wave form packing ring too much or too little bad, the yields has been improved, the O type circle contact on fat liquoring gyro wheel and the end cover, the rotary disk that is equipped with the end cover in the oiling station is rotatory, and accomplished the fat liquoring to O type circle, the time is saved, transmission device has prevented artifical transport through the lower part that the guide rail transmitted rotor and end cover to press mechanism.

Drawings

FIG. 1 is a schematic structural view of an assembly device for an O-ring, a wave washer and a rotor of a motor;

FIG. 2 is a schematic structural view of an end cap tooling;

FIG. 3 is a schematic structural view of an O-ring assembly mechanism;

FIG. 4 is a schematic structural view of an oiling device;

FIG. 5 is a schematic structural view of a wave washer fixture;

FIG. 6 is a schematic structural diagram of a wave washer detection mechanism;

FIG. 7 is a schematic structural view of a transport mechanism;

FIG. 8 is a schematic view of the press mechanism;

the device comprises a machine body, an end cover tool, a 3O-shaped ring assembling mechanism, a 4 oiling device, a 5 wave washer tool, a 6 wave washer detecting mechanism, a 7 rotor base, an 8 transmission mechanism, a 9 pressing mechanism, a 10 clamping jaw, a 11 second clamping jaw, a 21 base, a 22 positioning column, a 23 sensor, a 31 air cylinder, a 32 ejecting block, a 33 third clamping jaw, a 34 second sensor, a 41 second base, a 42 rotating disc, a 43 power mechanism, a 44 second positioning column, a 45 oiling roller, a 46 mounting plate, a 47 second air cylinder, a 48 oil valve, a 49 ejecting mechanism, a 51 third base, a 52, a supporting column, a 53, a supporting disc, a 531, a supporting disc upper portion, a 532, a supporting disc lower portion, a 54, a groove, a 61, a third air cylinder, a 62, a detector, a 63, a third pressing disc 63, a 64, a fifth air cylinder, a 65, a fourth clamping jaw supporting column, a 53, a supporting disc.

Detailed Description

The present invention will be further described in with reference to the following drawings and detailed description.

As shown in fig. 1, the motor O-ring, the wave washer and the rotor assembling device include a machine body 1, the machine body 1 is provided with an end cover tooling 2 for placing an end cover, an O-ring assembling mechanism 3, an oiling device 4, a wave washer tooling 5, a wave washer detecting mechanism 6, a rotor base 7 for placing a rotor, a transmission mechanism 8 for transmitting the rotor base 7, a pressing mechanism 9, a second clamping jaw 11 for clamping the end cover from the end cover tooling 2, placing the end cover on the O-ring assembling mechanism 3, then clamping the end cover from the O-ring assembling mechanism 3, placing the -th clamping jaw 10 on the oiling device 4, and placing the end cover from the oiling device 4 onto the wave washer tooling 5, and then clamping the end cover from the wave washer tooling 5 onto the rotor base 7.

On the basis, as shown in fig. 2, the end cap tooling 2 includes an th base 21, a th positioning column 22 for positioning the end cap is disposed on the th base 21, a th sensor 23 is disposed on a side of the th base 21, the th sensor 23 is used for detecting whether the end cap tooling has an end cap, and the th sensor 23 may be a photoelectric sensor or an ultrasonic sensor, and in this embodiment, a photoelectric sensor is selected.

On the basis, the O-ring assembling mechanism 3 shown in fig. 3 includes a cylinder 31 of the third , an ejection block 32 for ejecting the O-ring and a jaw valve for spreading the O-ring are disposed on an upper end surface of the cylinder 31 of the third , the jaw valve includes a third jaw 33, a rectangular block for hooking the O-ring to prevent the O-ring from falling off is disposed on an upper portion of the third jaw 33, the rectangular block is used for hooking the O-ring to prevent the O-ring from falling off, a second sensor 34 for detecting the O-ring is disposed on a side of the cylinder 31 of the on the body, the cylinder 31 of the third is used for driving the ejection block 32 to eject upward and for driving the jaw valve to contract or open, the second sensor 34 is used for detecting whether the O-ring exists on the jaw valve, the second sensor 34 may be a photoelectric sensor or an ultrasonic sensor, in this embodiment, the cylinder 31 of the second is a model of spgs 810-B-reizhub.

On the basis, the oiling device 4 shown in fig. 4 includes a second base 41, a rotating disk 42 is disposed on the second base 41, a power mechanism 43 for driving the rotating disk to rotate is disposed below the second base 41, the power mechanism 43 may be a servo motor or an air cylinder, a servo motor is selected in this embodiment, a second positioning column 44 for positioning an end cover is disposed on the rotating disk 42, an oiling roller 45 is disposed on the side of the rotating disk 42, a mounting plate 46 is disposed above the oiling roller 45, the oiling roller 45 is connected to the mounting plate 46, a second air cylinder 47 for driving the mounting plate to move horizontally is disposed at the end of the mounting plate 46 far away from the oiling roller 45, an ejection mechanism 49 is disposed on the second air cylinder 47, the mounting plate 46 is disposed on the ejection mechanism 49, the mounting plate 46 moves horizontally along with the ejection mechanism 49, so as to drive the oiling roller 45 to move horizontally, an oil valve 48 is connected to the side of the ejection mechanism 49, the oil valve 48 moves horizontally along with the ejection mechanism 49, an oil outlet is disposed on the oil valve 48, and the oil outlet is connected to the oil roller 45, and the oil outlet flows to the oil outlet 45.

On the basis, as shown in fig. 5, the wave washer fixture 5 includes a third base 51, the third base 51 is provided with a th supporting column 52, a end away from the third base 51 is provided with a supporting disc 53 on the th supporting column 52, the supporting disc 53 includes a supporting disc upper portion 531 and a supporting disc lower portion 532, the width of the supporting disc upper portion 531 is smaller than the width of the supporting disc lower portion 532, the supporting disc 53 is provided with a groove 54 which is communicated with each other up and down, the supporting disc upper portion 531 is narrow and used for positioning the wave washer to prevent the wave washer from deviating, the supporting disc lower portion 532 is wide and used for supporting the wave washer to prevent the wave washer from falling, and the fourth clamping jaw 65 on the wave washer detection mechanism 6 is convenient for the fourth clamping jaw 65 on the wave washer detection.

On the basis of the above, the wave washer detection mechanism 6 shown in fig. 6 includes a third air cylinder 61, a pressing mechanism for pressing the wave washer and a clamping jaw mechanism for clamping the wave washer are arranged on the third air cylinder 61, the clamping jaw mechanism includes a fourth clamping jaw 65 for clamping the wave washer and a fourth air cylinder 66 for driving the fourth clamping jaw 65 to open or close, a detector 62 for detecting whether the wave washer exists and detecting the number of the wave washers is arranged on the fourth clamping jaw 65, the detector 62 moves along with the up-and-down movement of the fourth clamping jaw 65, the pressing mechanism includes a th pressing plate 63 for pressing the wave washer and a fifth air cylinder 64 for driving the to move up and down, the head of the th pressing plate 63 is arranged in a circular arc shape, the area of the th pressing plate 63 for pressing the wave washer is as large as possible to make the pressed wave washer smoother on the side, a space is left on the side for the fourth clamping jaw to clamp the wave washer, and the detector 62 may be a displacement sensor or a distance sensor, which is selected in.

On the basis of the above, the transmission mechanism 8 shown in fig. 7 includes a sixth air cylinder 81, a third connection block 82 is disposed on the sixth air cylinder 81, the third connection block 82 is connected to the rotor base 7 on which the rotor is placed, a guide rail 83 is disposed at the lower portion of the rotor base 7, the rotor base 7 horizontally moves along the guide rail 83, a third sensor 84 is disposed at the side of the rotor base 7, the sixth air cylinder 81 is used for driving the rotor base 7 to horizontally move along the guide rail 83 so as to transmit the rotor and the end cover to the lower portion of the pressing mechanism 9, and the third sensor 84 may be a photoelectric sensor or an ultrasonic sensor, and a photoelectric sensor is selected in this embodiment.

On the basis of the above, the press mechanism 9 shown in fig. 8 includes an electronic press 901, a lower portion of the electronic press 901 is provided with a floating joint 902, a lower portion of the floating joint 902 is provided with a support plate 903, a side of the support plate 903 is provided with a third guide rail 904, an upper end face of the support plate 903 is provided with a slider 905, the slider 905 is disposed on the third guide rail 904, the slider 905 moves up and down along the third guide rail 904 under the driving of the electronic press 901, a side of the support plate 903 away from the third guide rail 904 is provided with a seventh air cylinder 906, the seventh air cylinder 906 is provided with a second connection block 907, the seventh air cylinder 906 drives the second connection block 907 to move horizontally, a lower portion of the third connection block 907 is provided with a second connection block 908, a lower portion of the second connection block 915 is provided with a main press head 909 for pressing the rotor into the machine casing, a lower portion of the second connection block 908 is provided with an eighth air cylinder 910, a lower portion of the lower end of the second connection block 908 away from a end of the main connection block 909, the main connection block 908 is provided with a fifth air cylinder 911, the eighth air cylinder 910 is provided with a support bracket 914 for pressing the fifth clamping jaw 911, the support block 914 for pressing the support clamp holder 911, the support clamp holder 914 outside the lower support column 914, the lower support 912 is provided with a support clamp 912, the support clamp is provided with a support clamp 912, the support clamp collet clamp 912, the support clamp is provided with a support clamp 912, the support clamp collet clamp 912, the support clamp is provided.

The above-mentioned embodiments, the purpose, technical solution and advantages of the present invention have been described in , it should be understood that the above description is only the embodiments of the present invention, and should not be used to limit the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. The assembling equipment for the O-shaped ring, the wave washer and the rotor of the motor comprises a machine body (1) and is characterized in that an end cover tool (2) used for placing an end cover, an O-shaped ring assembling mechanism (3), an oiling device (4), a wave washer tool (5), a wave washer detection mechanism (6), a rotor base (7) used for placing the rotor, a transmission mechanism (8) used for transmitting the rotor base (7), a pressing mechanism (9), a second clamping jaw (11) used for clamping the end cover from the end cover tool (2) to the O-shaped ring assembling mechanism (3) and then clamping the end cover from the O-shaped ring assembling mechanism (3) to the clamping jaw (10) placed on the oiling device (4) and a second clamping jaw (11) used for clamping the end cover from the oiling device (4) to the wave washer tool (5) and then clamping the end cover from the wave washer tool (5) to the rotor base (7).

2. The assembling device for the O-ring, the wave washer and the rotor of the motor as claimed in claim 1, wherein the end cover tooling (2) comprises an th base (21), a th positioning column (22) for positioning an end cover is arranged on the th base (21), and a th sensor (23) is arranged on the side of the th base (21).

3. The electric machine O-ring, wave washer and rotor assembling device of claim 1, characterized in that the O-ring assembling mechanism (3) comprises an th air cylinder (31), an ejection block (32) for ejecting the O-ring and a jaw valve for expanding the O-ring are arranged on the upper end surface of the th air cylinder (31), the jaw valve comprises a third jaw (33), a rectangular block for hooking the O-ring to prevent the O-ring from falling off is arranged on the upper portion of the third jaw (33), and a second sensor (34) for detecting the O-ring is arranged on the machine body at the side of the th air cylinder (31).

4. The motor O-ring, wave washer and rotor assembling equipment as claimed in claim 1, characterized in that the oiling device (4) comprises a second base (41), a rotating disk (42) is arranged on the second base (41), a power mechanism (43) for driving the rotating disk to rotate is arranged below the second base (41), a second positioning column (44) for positioning an end cover is arranged on the rotating disk (42), an oiling roller (45) is arranged on the side of the rotating disk (42), a mounting plate (46) is arranged above the oiling roller (45), the oiling roller (45) is connected with the mounting plate (46), a second cylinder (47) for driving the mounting plate (46) to move horizontally is arranged at the end of the mounting plate (46) far away from the oiling roller (45), an ejection mechanism (49) is arranged on the second cylinder (47), the mounting plate (46) is arranged on the ejection mechanism (49), the mounting plate (46) moves horizontally along with the ejection mechanism (49), an oil valve (48) is connected to the side of the ejection mechanism (49), and the oil valve (48) is connected with an oil outlet (48) and is connected with the oiling roller (45).

5. The motor O-ring, wave washer and rotor assembling equipment according to claim 1, characterized in that the wave washer tool (5) comprises a third base (51), the third base (51) is provided with a th supporting column (52), the end of the th supporting column (52) far away from the third base (51) is provided with a supporting disc (53), the supporting disc (53) comprises a supporting disc upper part (531) and a supporting disc lower part (532), the width of the supporting disc upper part (531) is smaller than that of the supporting disc lower part (532), and the supporting disc (53) is provided with a groove (54) which is communicated up and down.

6. The motor O-ring, wave washer and rotor assembling equipment of claim 1, characterized in that the wave washer detecting mechanism (6) comprises a third air cylinder (61), a pressing mechanism for pressing the wave washer and a clamping jaw mechanism for clamping the wave washer are arranged on the third air cylinder (61), the clamping jaw mechanism comprises a fourth clamping jaw (65) for clamping the wave washer and a fourth air cylinder (66) for driving the fourth clamping jaw (65) to open or close, a detector (62) for detecting whether the wave washer exists or not and detecting the quantity of the wave washers is arranged on the fourth clamping jaw (65), the detector (62) moves along with the up-and-down movement of the fourth clamping jaw (65), the pressing mechanism comprises a -th pressing plate (63) for pressing the wave washer and a fifth air cylinder (64) for driving a -th pressing plate (63) to move up and down, and the head of the -th pressing plate (63) is arranged in a circular arc shape.

7. The motor O-ring, wave washer and rotor assembling device of claim 1, characterized in that the transmission mechanism (8) comprises a sixth cylinder (81), a third connecting block (82) is arranged on the sixth cylinder (81), the third connecting block (82) is connected with a rotor base (7) for placing the rotor, a guide rail (83) is arranged at the lower part of the rotor base (7), the rotor base (7) horizontally moves along the guide rail (83), and a third sensor (84) is arranged at the side of the rotor base (7).

8. The electric machine O-ring, wave washer and rotor assembling device according to claim 1, wherein the press mechanism (9) comprises an electronic press (901), a floating joint (902) is arranged at the lower part of the electronic press (901), a support plate (903) is arranged at the lower part of the floating joint (902), a third guide rail (904) is arranged on the side of the support plate (903), a slider (905) is arranged on the upper end face of the support plate (903), the slider (905) is arranged on the third guide rail (904), the slider (905) moves up and down along the third guide rail (904) under the driving of the electronic press (901), a seventh air cylinder (906) is arranged on the side of the support plate (903) far from the third guide rail (904), a seventh air cylinder (907) is arranged on the seventh air cylinder (906), a connecting block (907) is arranged on the seventh air cylinder (906) on the side of the support plate () far from the third guide rail (904), a second connecting block (907) is arranged on the seventh air cylinder (906), a seventh air cylinder (906) drives a seventh air cylinder (906) to move horizontally, a second air cylinder (912) drives a third air cylinder (912) to move a supporting block (912), a supporting block (912) drives a second cylinder (912) to move horizontally, a supporting block (912) is arranged on the lower part of a supporting cylinder (912) which presses a supporting column (909) on the lower part of the lower end face of the lower supporting jaw (912) which presses a casing (912) which is arranged on the lower supporting jaw (909), a supporting column (909), a supporting jaw (912), a supporting column (912) which is arranged on the lower supporting jaw (912), a supporting column (912), a horizontal supporting jaw supporting column (912), a horizontal supporting column (909) which is arranged on the lower supporting jaw supporting column (912), a horizontal supporting column (909) which is arranged on the lower supporting column (909), a horizontal supporting column (912) which is arranged on the lower part of a horizontal supporting column (912), a horizontal supporting column (912) which is arranged on the lower supporting jaw supporting column (912), a horizontal supporting jaw supporting column (912) which is arranged on the lower supporting column (912), a horizontal supporting jaw supporting column (912), a horizontal supporting jaw supporting column.