CN113618286B - Accurate quick location of quartz boat is pretended and is connect welding process device - Google Patents

Abstract

The invention discloses a precise and rapid positioning false welding processing device for a quartz boat, which belongs to the technical field of quartz boat product manufacturing and comprises a transmission assembly and a support plate, wherein the transmission assembly comprises a substrate, a transmission box for mounting a driving device is constructed on one side of the substrate, a conveyor belt is arranged on one side of the transmission box, the driving device in the transmission box is a double-shaft motor and is provided with a shaft group structure with the length adjustable along the axis direction, the shaft group structure is provided with a first driving state for driving the transmission assembly along the extension direction of the support plate and a second driving state for driving the conveyor belt, a shaft position adjusting mechanism for adjusting the driving state of the shaft group structure is arranged on the transmission box, a limiting rubber edge of a limiting and positioning assembly is arranged above the conveyor belt, the positioning assembly comprises a quartz boat clamp, and a clamping mold for clamping the quartz boat is slidably arranged above the quartz boat clamp. This false welding processingequipment that connects of accurate quick location of quartz boat easily realizes quick, accurate substrate location to guarantee the welding quality of quartz boat.

Description

Accurate quick location of quartz boat is pretended and is connect welding process device

Technical Field

The invention belongs to the technical field of quartz boat product manufacturing, and particularly relates to a precise and rapid positioning false welding processing device for a quartz boat.

Background

In recent years, with the attention on environmental protection, the photovoltaic solar energy industry develops rapidly, and quartz boat products applied to the oxidation diffusion process flow are continuously updated and changed. The quartz boat is mainly used in electric light source, semiconductor, optical technology, etc. and also in chemical, metallurgical, electrician and scientific research. In the production process of the quartz boat, the basic structure of the quartz boat needs to be welded after being spliced.

The basic structure of the quartz boat comprises a plurality of groove rods and a test piece, the end parts of the groove rods are welded at the designated positions on the side surfaces of the test piece, the basic structure needs to be connected in a false mode before the quartz boat is welded, positioning is carried out, the accuracy and the quality consistency are guaranteed, and the quality of welding of the quartz boat product is finally influenced by the accuracy of the connection in the false mode.

Disclosure of Invention

The invention aims to provide a false welding processing device for accurately and quickly positioning a quartz boat, so as to realize quick and accurate positioning of a substrate and conveniently ensure the welding quality of the quartz boat.

In order to achieve the purpose, the invention provides the following technical scheme: a quartz boat accurate and rapid positioning false welding processing device comprises a transmission assembly and a carrier plate for bearing the transmission assembly;

the transmission assembly comprises a substrate which is arranged above the carrier plate in a sliding manner, one side of the substrate is provided with a transmission box for installing a driving device, one side of the transmission box is provided with a conveyor belt which is horizontally assembled above the substrate, the driving device in the transmission box is a double-shaft motor and is provided with a shaft set structure with the length adjustable along the axis direction, and the shaft set structure of the double-shaft motor has a driving state I for driving the transmission assembly along the extension direction of the carrier plate; the transmission case is provided with a shaft position adjusting mechanism for adjusting the driving state of the shaft group structure;

the top of above-mentioned conveyer belt is equipped with the spacing gluey arris of spacing location assembly, and above-mentioned location assembly includes quartz boat anchor clamps, and the constant head tank of the spacing gluey arris of adaptation is seted up to the bottom of above-mentioned quartz boat anchor clamps, and the top slidable mounting of above-mentioned quartz boat anchor clamps has the centre gripping mould of centre gripping quartz boat.

As a further preferred scheme, a guide groove for slidably mounting the transmission assembly is formed above the carrier plate, and meshing toothed belts are partially formed on two sides of the carrier plate along the extending direction of the carrier plate.

As a further preferred scheme, an equipment bin for the shaft position adjusting mechanism to be embedded and installed is arranged above the transmission case, the shaft position adjusting mechanism comprises a sealing plate matched with the transmission case and a pump air source installed below the sealing plate in the middle, and first pneumatic telescopic rods with end parts assembled with the gripping handles are arranged on two sides of the pump air source.

As a further preferred scheme, the shaft group structure of the double-shaft motor is a driving shaft and a sleeve shaft sleeved on the end part of the driving shaft, an insertion cavity matched with the driving shaft is formed in the sleeve shaft, a key groove in sliding fit with the insertion cavity is formed in the periphery of the driving shaft matched with the sleeve shaft, the end part of the sleeve shaft extends out of the transmission case, and a clamping groove matched with the clamping handle is formed in the outer edge of the sleeve shaft.

Preferably, the base plate is symmetrically provided with a set of wing plates, one side of each wing plate, which is far away from the transmission box, is rotatably connected with a driven roller matched with the transmission belt, the other end of the transmission belt is tensioned by a transmission roller, and two ends of the transmission roller are rotatably connected with the embedding blocks detachably mounted on the base plate.

As a further preferred scheme, the driving roller has an end portion extending out of the two side engagement blocks, the end portions are respectively provided with a driven gear, two sides of the transmission case are provided with transmission gears engaged with the driven gears, two sides of the transmission case are provided with assembly grooves for mounting the driving gear, and the driving gear is assembled at the end portion of the sleeve shaft.

Preferably, the driving gear has a bevel gear engaging surface for engaging with the engaging toothed belt, and the outer peripheral surface of the driving gear is further provided with an annular engaging surface for engaging with the transmission gear.

As a further preferred scheme, be equipped with a set of tensioning roller in the above-mentioned conveyer belt, the both ends of above-mentioned tensioning roller are equipped with the even board of L type with tensioning roller rotatable coupling, and the even board of above-mentioned L type and elastic component cooperation tensioning conveyer belt.

Preferably, the inner side of the wing plate is provided with an adjusting groove corresponding to the mounting position of the L-shaped connecting plate, the adjusting groove extends obliquely, the end of the adjusting groove is provided with a matching plate, the elastic member is a spring arranged on one side of the L-shaped connecting plate facing the matching plate, the spring is welded with the matching plate, and the axial center position of the spring is provided with a guide shaft which penetrates through the matching plate and is in sliding fit with the matching plate.

As a further preferred scheme, two groups of connecting seats are symmetrically arranged on the quartz boat clamp, a second pneumatic telescopic rod for connecting the clamping mold is arranged on each connecting seat, an interface for connecting the second pneumatic telescopic rod is arranged on the quartz boat clamp, the interface is provided with a pipeline for connecting the second pneumatic telescopic rod, and the other end of the second pneumatic telescopic rod is connected with a pump air source.

This false welding processingequipment that connects of accurate quick location of quartz boat has following advantage:

1. a quartz boat accurate and rapid positioning false welding processing device aims at convenient positioning of a positioning assembly, a limiting rubber edge of a limiting positioning assembly is arranged above a conveyor belt, the positioning assembly comprises a quartz boat clamp, a positioning groove matched with the limiting rubber edge is formed in the bottom of the quartz boat clamp, the positioning assembly is installed in a matched mode with the conveyor belt, the conveyor belt can drive the positioning assembly to realize false welding, and the positioning assembly is convenient to position conveniently due to the matching of the limiting rubber edge on the conveyor belt and a positioning groove below the quartz boat clamp, so that the positioning of a quartz boat on the positioning assembly is convenient to realize;

2. a precise and rapid positioning false welding processing device for a quartz boat is characterized in that when a pump air source in an axial position adjusting mechanism drives a pneumatic telescopic rod to contract, a grasping handle grasping sleeve moves axially inwards, so that an annular meshing surface of a driving gear is positioned in an assembly groove and does not engage with a transmission gear, a transmission assembly can move along the extension direction of a carrier plate under the condition that an umbrella tooth meshing surface engages with a meshing toothed belt until reaching a butt joint station at the end part of the carrier plate, the driving state can be adjusted through an axial position adjusting mechanism to finely adjust the mounting position of a positioning assembly, namely when the pump air source drives the pneumatic telescopic rod to extend, the grasping handle grasping sleeve moves axially outwards, so that the annular meshing surface of the driving gear is positioned outside the assembly groove and engages with the transmission gear, the axial position adjusting mechanism is in a driving state II, and a transmission roller drives a transmission belt to rotate to realize fine adjustment of the positioning assembly under the condition that the transmission gear engages with a driven gear, the positioning assemblies in the two groups of relative equipment are mutually finely adjusted and butted, so that the false connection of the quartz boats limited on the positioning assemblies is realized, and the welding work is convenient, so that the transmission assembly can be conveniently transmitted along the extension direction of the support plate in the state that the double-shaft motor drives the driving gear and the bevel gear meshing surface is meshed with the meshing toothed belt in the transmission box by virtue of the transmission assembly arranged above the support plate, when the shaft position adjusting mechanism is adjusted to be in a driving state II, the driving gear extends out of the assembling groove, the annular meshing surface is mutually meshed with the transmission gear, the driven gear can be driven to realize the driving of the conveying belt, the transmission assembly can be conveniently and directly finely adjusted to realize the butting of products after being transmitted to the support plate butting station, and the subsequent welding work is convenient to be carried out;

3. the utility model provides a false welding processingequipment that connects in accurate quick location of quartz boat, the slide can regard as the mounting groove of inlaying the piece of joining in marriage, and need set up at least a set of slide rail that is used for spacing inlaying the piece of joining in marriage with the different contact surfaces of slide in the slide, thereby realize the removable installation of inlaying the piece, and benefit from the removable design of inlaying the piece, the swift separation of being convenient for realizes the maintenance to the conveyer belt, and the conveyer belt can guarantee the tensioning degree when conveyer belt transmission with the cooperation of tensioning roller, in order to keep the conveyer belt to the driven stability of location assembly.

Drawings

FIG. 1 is a schematic structural view of the present invention;

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

FIG. 3 is an enlarged view of the structure at A in FIG. 2 according to the present invention;

FIG. 4 is a schematic view of a substrate according to the present invention;

FIG. 5 is a cross-sectional view of the drive gear in engagement with the sleeve shaft;

FIG. 6 is an enlarged view of the structure of FIG. 4 at B in accordance with the present invention;

FIG. 7 is a schematic structural view of the shaft position adjusting mechanism according to the present invention;

FIG. 8 is a schematic view of the quartz boat fixture of the present invention.

In the figure: 1. a transmission assembly; 101. a substrate; 102. a transmission case; 10201. an equipment bin; 10202. assembling a groove; 103. a wing plate; 10301. an adjustment groove; 10302. a mating plate; 104. an embedding block; 10401. a slideway; 10402. a slide rail; 105. a driving roller; 10501. a driven gear; 106. a transmission gear; 107. a driving gear; 10701. the meshing surface of the bevel gear; 10702. an annular engaging surface; 108. a sleeve shaft; 10801. an insertion cavity; 10802. a clamping groove; 109. a drive shaft; 10901. a keyway; 2. a carrier plate; 201. a guide groove; 202. a toothed belt; 3. a shaft position adjusting mechanism; 301. closing the plate; 30101. an ear plate; 302. a pump gas source; 30201. a first pneumatic telescopic rod; 30202. a pump gas line; 303. a grip handle; 4. a conveyor belt; 401. limiting the glue edges; 5. a tension roller; 501. an L-shaped connecting plate; 50101. a guide shaft; 50102. a spring; 6. positioning the assembly; 601. a quartz boat clamp; 60101. positioning a groove; 602. a connecting seat; 60201. a second pneumatic telescopic rod; 603. and clamping the die.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

The invention provides a precise and rapid positioning false welding processing device for a quartz boat as shown in figures 1-8, which comprises a transmission assembly 1 and a carrier plate 2 bearing the transmission assembly 1, wherein when the false welding of the quartz boat is realized in the operation of equipment, the transmission assembly 1 and the carrier plate 2 bearing the transmission assembly 1 need to be symmetrically arranged in a group, a guide groove 201 for the sliding installation of the transmission assembly 1 is arranged above the carrier plate 2, and meshing toothed belts 202 are partially constructed on two sides of the carrier plate 2 along the extension direction of the carrier plate 2;

the transmission assembly 1 comprises a base plate 101 which is slidably arranged above the carrier plate 2, one side of the base plate 101 is provided with a transmission case 102 for installing a driving device, one side of the transmission case 102 is provided with a conveyor belt 4 which is horizontally assembled above the base plate 101, the driving device in the transmission case 102 is a double-shaft motor and is provided with a shaft set structure with the length adjustable along the axial center direction, and the shaft set structure of the double-shaft motor has a first driving state for driving the transmission assembly 1 along the extending direction of the carrier plate 2; a second driving state for driving the conveyor belt 4, wherein a shaft position adjusting mechanism 3 for adjusting the driving state of the shaft group structure is assembled on the transmission case 102;

an equipment bin 10201 for the shaft position adjusting mechanism 3 to be embedded and installed is arranged above the transmission box 102, the shaft position adjusting mechanism 3 comprises a sealing plate 301 matched with the transmission box 102 and a pump air source 302 arranged below the sealing plate 301 in the middle, a first pneumatic telescopic rod 30201 with an end part assembled with a holding handle 303 is arranged at two sides of the pump air source 302 (in specific implementation, the holding handle 303 is provided with a clamping groove for buckling the sleeve shaft 108, a group of ear plates 30101 are symmetrically arranged at two sides of the sealing plate 301, each ear plate 30101 is provided with a shaft rod inserted into the first pneumatic telescopic rod 30201, the shaft rod is in sliding fit with the end part of the first pneumatic telescopic rod 30201 to ensure the stability of the first pneumatic telescopic rod 30201 when the first pneumatic telescopic rod 30201 extends along the axial direction), a shaft group structure of the double-shaft motor is a driving shaft 109 and a sleeve shaft 108 sleeved at the end part of the driving shaft 109, an insertion cavity 10801 matched with the driving shaft 109 is arranged in the sleeve shaft 108, a key groove 10901 in sliding fit with the outer periphery of the insertion cavity 10801 matched with the driving shaft 109, the end part of the sleeve shaft 108 extends out of the transmission case 102, and the outer edge of the sleeve shaft 108 is provided with a clamping groove 10802 matched with the gripping handle 303;

a group of wing plates 103 are symmetrically arranged on the base plate 101, one side of the group of wing plates 103 far away from the transmission case 102 is rotatably connected with a driven roller matched with the transmission belt 4, the other end of the transmission belt 4 is tensioned by a transmission roller 105, two ends of the transmission roller 105 are rotatably connected with an embedding block 104 which is detachably arranged on the base plate 101 (in specific implementation, as shown in fig. 4, a slide 10401 can be used as an installation groove of the embedding block 104, and at least one group of slide rails 10402 used for limiting different contact surfaces of the embedding block 104 and the slide 10401 are required to be arranged in the slide 10401, so that the detachable installation of the embedding block 104 is realized, the detachable design of the embedding block 104 is beneficial to the quick separation and the inspection of the transmission belt 4 is realized), the transmission roller 105 is provided with end parts extending out of the embedding blocks 104 at two sides, the end parts are respectively provided with a driven gear 10501, transmission gears 106 meshed with the driven gear 10501 are arranged at two sides of the transmission case 102, and assembly grooves 10202 for installing the driving gears 107 are arranged at two sides of the transmission case 102, the driving gear 107 is assembled at the end part of the sleeve shaft 108, the driving gear 107 is provided with a bevel gear meshing surface 10701 meshed with the meshing toothed belt 202, and the outer edge surface of the driving gear 107 is also provided with an annular meshing surface 10702 meshed with the transmission gear 106;

the shaft position adjusting mechanism 3 has the following transmission principle:

driving state one for driving the transmission assembly 1 to move towards one end of the carrier plate 2, wherein the meshing toothed belt 202 only occupies the part of the carrier plate 2 in the extending direction as shown in fig. 1, when the pumping source 302 in the position adjusting mechanism 3 drives the pneumatic telescopic rod one 30201 to contract, the gripping handle 303 gripping sleeve shaft 108 moves inwards, so that the annular meshing surface 10702 of the driving gear 107 is positioned in the assembly groove 10202 and does not engage the transmission gear 106, so that the transmission assembly 1 can be displaced in the extending direction of the carrier plate 2 in the state that the bevel meshing surface 10701 engages the meshing toothed belt 202 until the abutting station of the end of the carrier plate 2, the driving state can be adjusted by the shaft position adjusting mechanism 3 to perform fine adjustment of the installation position of the positioning assembly 6, i.e. when the pumping source 302 drives the pneumatic telescopic rod one 30201 to extend, the gripping handle 303 gripping sleeve shaft 108 moves outwards, so that the annular meshing surface 10702 of the driving gear 107 is positioned outside the assembly groove 10202, and the shaft position adjusting mechanism 3 is in a driving state II by meshing the transmission gear 106, so that the transmission roller 105 is transmitted and the conveyor belt 4 is driven to rotate to realize the fine adjustment of the positioning assembly 6 in the state that the transmission gear 106 is meshed with the driven gear 10501, and the positioning assemblies 6 in the two sets of opposite equipment are mutually subjected to fine adjustment butt joint, so that the false joint of the quartz boats limited on the positioning assemblies 6 is realized, and the welding work is convenient.

As a supplement to the above embodiments, the present invention discloses a precise and fast positioning and welding device for false connection of a quartz boat as shown in fig. 1, fig. 4, fig. 6 and fig. 8, which is used for convenient positioning of a positioning assembly 6, wherein a position-limiting rubber ridge 401 of the position-limiting positioning assembly 6 is arranged above a conveyor belt 4 of the device, the positioning assembly 6 comprises a quartz boat clamp 601, a positioning groove 60101 adapted to the position-limiting rubber ridge 401 is arranged at the bottom of the quartz boat clamp 601, a clamping mold 603 for clamping the quartz boat is slidably mounted above the quartz boat clamp 601, two groups of connecting seats 602 are symmetrically arranged on the quartz boat clamp 601, a second pneumatic telescopic rod 60201 for connecting the clamping mold 603 is arranged on the connecting seats 602, an interface for connecting a pump gas pipeline 30202 is arranged on the quartz boat clamp 601, the interface has a pipeline for connecting the second pneumatic telescopic rod 60201, and the other end of the pump gas pipeline 30202 is connected to a pump gas source 302;

the base plate 101 is symmetrically provided with a group of wing plates 103, one side of the group of wing plates 103 far away from the transmission box 102 is rotatably connected with a driven roller matched with the transmission belt 4, the other end of the transmission belt 4 is tensioned by a transmission roller 105, two ends of the transmission roller 105 are rotatably connected with an embedding block 104 detachably arranged on the base plate 101, a group of tension rollers 5 are arranged in the transmission belt 4, two ends of each tension roller 5 are provided with an L-shaped connecting plate 501 rotatably connected with the tension roller 5, the L-shaped connecting plate 501 is matched with an elastic member to tension the transmission belt 4, the inner side of each wing plate 103 is provided with an adjusting groove 10301 corresponding to the mounting position of the L-shaped connecting plate 501, the adjusting groove 10301 extends obliquely, the tail end of the adjusting groove 10301 is provided with a matching plate 10302, the elastic member is a spring 50102 arranged on one side of the L-shaped connecting plate 501 facing the matching plate 10302, the spring 50102 is welded with the matching plate 10302, a guide shaft 50101 penetrating through the matching plate 10302 and in sliding fit with the matching plate 10302 is arranged at the axial center of the spring 50102, the guide shaft 50101 is arranged to ensure the stability of the elastic force direction of the spring 50102, so that the belt 4 and the tension roller 5 cooperate to ensure the tension degree of the belt 4 during transmission, thereby maintaining the stability of the belt 4 to the transmission of the positioning assembly 6.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (10)

1. The utility model provides a false welding processingequipment that connects of accurate quick location of quartz boat which characterized in that: comprises a transmission assembly (1) and a carrier plate (2) for bearing the transmission assembly (1);

the transmission assembly (1) comprises a base plate (101) which is slidably mounted above the carrier plate (2), a transmission case (102) for mounting a driving device is constructed on one side of the base plate (101), a conveyor belt (4) horizontally assembled above the base plate (101) is arranged on one side of the transmission case (102), the driving device in the transmission case (102) is a double-shaft motor and is provided with a shaft set structure with the length adjustable along the axis direction, and the shaft set structure of the double-shaft motor has a first driving state for driving the transmission assembly (1) along the extension direction of the carrier plate (2); a second driving state for driving the conveyor belt (4), wherein a shaft position adjusting mechanism (3) for adjusting the driving state of the shaft group structure is assembled on the transmission case (102);

the top of conveyer belt (4) is equipped with spacing gluey arris (401) of spacing location assembly (6), location assembly (6) are including quartz boat anchor clamps (601), constant head tank (60101) of spacing gluey arris (401) of adaptation are seted up to the bottom of quartz boat anchor clamps (601), the top slidable mounting of quartz boat anchor clamps (601) has centre gripping mould (603) of centre gripping quartz boat.

2. The quartz boat accurate and rapid positioning false welding processing device of claim 1, wherein: a guide groove (201) for the sliding installation of the transmission assembly (1) is formed above the carrier plate (2), and meshing toothed belts (202) are partially constructed on two sides of the carrier plate (2) along the extension direction of the carrier plate (2).

3. The quartz boat accurate and rapid positioning false welding processing device of claim 2, wherein: an equipment bin (10201) for the axis position adjusting mechanism (3) to be embedded and installed is arranged above the transmission case (102), the axis position adjusting mechanism (3) comprises a sealing plate (301) matched with the transmission case (102) and a pump air source (302) installed below the sealing plate (301) in the middle, and first pneumatic telescopic rods (30201) of end portion assembling and holding handles (303) are arranged on two sides of the pump air source (302).

4. The precise and rapid positioning false welding processing device for quartz boat according to claim 3, characterized in that: the axle group structure of biax motor is drive shaft (109) and cover and locates sleeve axle (108) of drive shaft (109) tip, seted up grafting chamber (10801) of adaptation drive shaft (109) in sleeve axle (108), keyway (10901) of sliding fit grafting chamber (10801) are seted up to the periphery of drive shaft (109) cooperation sleeve axle (108), the tip of sleeve axle (108) extends to outside transmission case (102), and the outer fringe of sleeve axle (108) is seted up the adaptation and is grabbed centre gripping groove (10802) of handle (303).

5. The precise and rapid positioning false welding processing device for quartz boat according to claim 4, characterized in that: the automatic belt conveyor is characterized in that a group of wing plates (103) are symmetrically arranged on the base plate (101), one side, away from the transmission box (102), of each wing plate (103) is rotatably connected with a driven roller matched with the conveyor belt (4), the other end of each conveyor belt (4) is tensioned by a transmission roller (105), and two ends of each transmission roller (105) are rotatably connected with an embedding block (104) detachably mounted on the base plate (101).

6. The precise and rapid positioning false welding processing device for quartz boat according to claim 5, characterized in that: the transmission roller (105) is provided with end portions extending out of the two side embedding blocks (104), the end portions are all provided with driven gears (10501), two sides of the transmission case (102) are provided with transmission gears (106) meshed with the driven gears (10501), assembling grooves (10202) for installing driving gears (107) are formed in two sides of the transmission case (102), and the driving gears (107) are assembled at the end portions of the sleeve shafts (108).

7. The precise and rapid positioning false welding processing device for quartz boat according to claim 6, characterized in that: the driving gear (107) is provided with a bevel gear meshing surface (10701) meshed with the meshing toothed belt (202), and the outer edge surface of the driving gear (107) is also provided with an annular meshing surface (10702) meshed with the transmission gear (106).

8. The precise and rapid positioning false welding processing device for quartz boat according to claim 5, characterized in that: be equipped with a set of tensioning roller (5) in conveyer belt (4), the both ends of tensioning roller (5) are equipped with even board (501) with tensioning roller (5) rotatable coupling's L type, even board (501) of L type and elastic component cooperation tensioning conveyer belt (4).

9. The precise and rapid positioning false welding processing device for quartz boat according to claim 8, characterized in that: adjusting groove (10301) have been seted up to the inboard mounted position that corresponds L type even board (501) of pterygoid lamina (103), adjusting groove (10301) slant extends, and the end of adjusting groove (10301) is equipped with cooperation board (10302), the elastic member is for setting up in L type even board (501) towards spring (50102) one side of cooperation board (10302), spring (50102) and cooperation board (10302) welding, and the axle center position of spring (50102) be equipped with one run through cooperation board (10302) and with cooperation board (10302) sliding fit's guiding axle (50101).

10. The quartz boat accurate and rapid positioning false welding processing device of claim 1, wherein: the quartz boat anchor clamps (601) are gone up the symmetry and are equipped with two sets of connecting seats (602), and are equipped with the pneumatic telescopic link two (60201) of connecting centre gripping mould (603) on connecting seat (602), be equipped with the interface of connecting pump gas pipeline (30202) on quartz boat anchor clamps (601), and the interface has the pipeline of connecting pneumatic telescopic link two (60201), the other end and the pump gas source (302) of pump gas pipeline (30202) are connected.

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