CN111305718A - Composite tool for hollow glass - Google Patents

Abstract

The composite tool for the hollow glass comprises a rectangular rack, and a positioning device and a multi-direction linkage mechanism which are arranged on the rack, wherein the positioning device is provided with a plurality of positioning devices, the positioning devices on the left side and the right side of the rack are respectively connected with a first driving device and driven by the first driving device to act, the first driving device is also connected with the multi-direction linkage mechanism, and the multi-direction linkage mechanism is connected with the positioning devices on the front side and the rear side of the rack through a second driving device so as to drive the positioning devices on the front side and the rear side of the rack to act; the positioning device is used for positioning and aligning the outer edges of the layers of glass and the keel. The invention has simple structure, convenient operation and high cost performance, improves the size precision of the composite relative position of the hollow glass, increases the integral strength of the hollow glass, reduces burst and is convenient for the module assembly installation of the hollow glass. The invention changes the traditional compounding mode of the hollow window, and can realize the quick positioning of the lower layer glass, the quick installation of the middle keel and the quick compounding of the upper layer glass.

Description

Composite tool for hollow glass

Technical Field

The invention relates to the technical field of hollow glass auxiliary devices, in particular to a composite tool for hollow glass.

Background

In the prior hollow glass industry, firstly, certain processing errors exist between glass and a keel, and in the process of compounding, because the relative position of one side can only be ensured by manpower or equipment, the errors are accumulated to the other side, and the centering adjustment is difficult to ensure. Relative position errors between glass and between glass and a keel are large, the assembly quality of hollow glass cannot be consistent, the efficiency is low, and the product or the project quality is seriously influenced and the assembly quality is influenced when the hollow glass is applied to some modularized assembly projects. In terms of overall thickness after compounding: the error range of the actual thickness of the hollow glass after compounding is limited; in the aspect of relative positions of glass and keels: the same edge of the upper layer glass and the lower layer glass is required to be on the same plane in the vertical direction after the hollow glass is compounded, the glass and the keel are required to be placed in the middle when the hollow glass is compounded, and the vertical distances of the four edges of the glass and the four edges of the keel on the same edge are equal after the compounding is finished.

Meanwhile, in the application of common hollow glass, because an error exists between the two pieces of glass and a relative position error exists between the glass and the keel, the two pieces of glass and the keel are difficult to ensure uniform stress, and a convex component is often stressed, so that the bearing capacity of the hollow glass is reduced or the hollow glass is cracked. In view of these factors, there is a strong need for an efficient and flexible compounding device that achieves consistent compounding quality and reduces labor costs. Therefore, the research on how to ensure the relative positions of the glass and the keel under the condition of errors in the real environment has important significance for improving the size precision of the composite relative position in the hollow glass industry, increasing the integral strength of the hollow glass, reducing the burst and mounting the hollow glass in a module assembling manner.

Disclosure of Invention

The invention provides the composite tool for the hollow glass, which is simple in structure and convenient to use, so as to make up for the defects of the prior art.

The invention is realized by the following technical scheme:

the invention discloses a composite tool for hollow glass, which is characterized in that: the positioning devices on the left side and the right side of the rack are respectively connected with a first driving device and driven to act by the first driving device, the first driving device is also connected with a multi-direction linkage mechanism, and the multi-direction linkage mechanism is connected with the positioning devices on the front side and the rear side of the rack through a second driving device so as to drive the positioning devices on the front side and the rear side of the rack to act; the positioning device is used for positioning and aligning the outer edges of the layers of glass and the keel.

In the positioning device, one end of a connecting shaft is sleeved with a return spring, the other end of the connecting shaft is fixedly connected with a positioning cushion block, and the positioning cushion block can be contacted with the outer edges of each layer of glass and the keel to position and align each layer of glass and the keel; the return spring is positioned inside the frame, and one end of the connecting shaft is also positioned inside the frame and is connected with the first driving device or the second driving device.

In the positioning device, one side of the positioning cushion block, which is in contact with the keel, adopts a boss structure, the high part of the boss is in contact with the outer side of the keel, the low part of the boss is in contact with each layer of glass, and the height of the boss corresponds to the preset height difference between the keel and the glass.

In the positioning device, the positioning cushion blocks are nylon cushion blocks, and at least two connecting shafts are arranged on one positioning cushion block; the top end of the connecting shaft is tightly inserted into a hole on the synchronizing rod so as to be fixedly connected with the synchronizing rod, or the top end of the connecting shaft is tightly inserted into a hole on the inclined block so as to be fixedly connected with the inclined block, the tail end of the connecting shaft is provided with a screw hole, a pre-buried stud is arranged in the positioning cushion block, the stud is screwed into the screw hole of the connecting shaft so as to fixedly connect the connecting shaft with the positioning cushion block, and a gasket for adjustment can be placed between the end surface of.

The first driving device of the positioning devices on the left side and the right side of the rack adopts a self-locking cam transmission device; and the second driving devices of the positioning devices on the front side and the rear side of the rack adopt slide block adjusting devices.

The slide block adjusting device comprises two inclined blocks which are contacted with each other through inclined planes, wherein a first inclined block is fixedly connected with a connecting shaft of the positioning device, and a second inclined block is connected with the multi-azimuth linkage device; the multidirectional linkage device pushes the two oblique blocks to move transversely, so that the oblique blocks are pushed to move longitudinally close to the glass, and the positioning device pushes the front side or the rear side of each layer of glass and the keel to be positioned and aligned.

The self-locking cam transmission device comprises a rotating shaft, a cam fixed at one end of the rotating shaft and a rotating handle fixed at the other end of the rotating shaft, wherein the rotating shaft is rotatably arranged on a rack, the rotating handle is positioned outside the rack, the cam is positioned inside the rack, a self-locking plane is arranged on one side of the cam, and the self-locking plane can be contacted with a multi-azimuth linkage device and a positioning device when the cam rotates, so that the positioning device pushes the left side or the right side of each layer of glass and keel to be positioned and aligned.

The multi-azimuth linkage device comprises a synchronizing rod arranged in a rack and a screw rod vertically connected to the end part of the synchronizing rod, wherein the tail end of the screw rod is connected with a second inclined block in the sliding block adjusting device, and a cam can be contacted with the synchronizing rod when rotating so as to push the synchronizing rod to move; a backing plate is fixed on the outer side of the frame and used for limiting the position of the two inclined blocks in the front-back direction; a guide rod is fixed inside the rack, and a hole in the synchronizing rod is sleeved on the guide rod, so that the synchronizing rod can move left and right along the guide rod.

In the multidirectional linkage device, one end of a screw is screwed into the second inclined block through threads, the other end of the screw is provided with threads and is inserted into a hole at the end part of a synchronizing rod, nuts are screwed on two sides of the synchronizing rod on the screw respectively, the synchronizing rod is clamped through two nuts on the screw to limit the length of the screw inserted into the synchronizing rod, the relative position of the synchronizing rod and the second inclined block is adjusted through rotating the nuts, and then the relative displacement of the second inclined block and the first inclined plane of the inclined block is adjusted, so that the stroke of the positioning device in the front-back direction is adjusted.

A friction-resistant noise-reducing shaft sleeve is fixed at the contact position of the frame and the connecting shaft; the upper surface of the frame or the outer side of the frame is provided with a lifting handle.

The invention has the advantages of simple structure, convenient operation and high cost performance, improves the size precision of the composite relative position of the hollow glass, increases the integral strength of the hollow glass, reduces the burst and is convenient for the module assembly installation of the hollow glass. The invention changes the traditional compounding mode of the hollow window, and can realize the quick positioning of the lower layer glass, the quick installation of the middle keel and the quick compounding of the upper layer glass. The invention is a quick composite tool suitable for hollow glass, and has remarkable effects on improving the working efficiency, reducing the production cost, improving the yield, quickly centering and adjusting, and improving the relative position precision between glass and keel during compounding. The invention has the advantages of high economic applicability, low failure rate, wide application range and high assembly precision, and is suitable for equipment tooling for compounding hollow glass.

1. The equipment is provided with a positioning device of the glass keel, so that the peripheral distance is consistent during assembly, the eccentric phenomenon of the keel during compounding is avoided, the verticality of the upper glass and the lower glass and the keel is also ensured, and meanwhile, the design of the positioning cushion block in a shape like a Chinese character 'tu' (a boss) (shown in figure 5) is completely attached to the upper glass, the lower glass and the keel, so that the overall strength of the hollow glass is increased, and when the side surface of the hollow window is stressed (namely the hollow glass is placed vertically, the tool is fixed around the periphery of the hollow glass), the condition that only the glass is stressed is avoided, so that the keel becomes a main stress unit, and the risk of glass burst is reduced;

2. the equipment is provided with a sliding block adjusting device and an adjusting mechanism in the width and length directions, and the relative position of the inclined block can be adjusted within a certain range according to the size of glass or a keel so as to meet the use requirement. The compounding accuracy when the glass or the keel has errors is ensured, and the application range of the tool is expanded;

3. the device is provided with a multi-azimuth linkage mechanism, and under the adjusting action of the mechanism, the glass can be automatically positioned in the middle, so that the relative positions of the glass and the relative positions of the glass and the keel are ensured, the composite process of centering adjustment is realized, and the dimensional accuracy of the composite relative position in the hollow glass industry is improved. Meanwhile, the equipment is simple and convenient to use, and common workers can easily complete the composite operation of the door and the window with the aid of the equipment;

4. the device adopts self-locking cam transmission, has simple structure, stable movement and synchronous action, ensures the quality of assembly, and has simple structure, low manufacturing cost and convenient adjustment;

5. have the function of secondary inspection glass and fossil fragments error, when glass, fossil fragments surpassed error range, the unable normal work of cam self-locking mechanism, the staff can this judgement error great, provides convenience for short-term test glass and fossil fragments size.

Drawings

FIG. 1 is a schematic front view of the housing and multi-orientation linkage mechanism of the present invention.

Fig. 2 is a schematic structural view of the positioning device of the present invention, which is a sectional view taken along line a-a of fig. 1.

Fig. 3 is a front view of the slider adjustment device of the present invention.

Fig. 4 is a front view of the self-locking cam driving structure of the invention.

Fig. 5 is a front view of the self-locking cam.

Fig. 6 is a front view of the positioning device.

In the figure: the device comprises a keel 1, a frame 2, a positioning cushion block 3, a guide rod 4, a connecting shaft 5, a shaft sleeve 6, a return spring 7, an inclined block 8, a backing plate 9, a supporting leg 10, a screw rod 11, a synchronizing rod 12, a rotating shaft 13 and a self-locking cam 14. 15 hollow windows, 16 nuts, 17 upper glass layers, 18 lower glass layers, 19 rotating handles, 20 lifting handles, 21 boss structures, 22 self-locking planes, 23 studs and 24 shims.

Detailed Description

The attached drawing is an embodiment of the invention.

The composite tool for the hollow glass comprises a rectangular rack 2, and a positioning device and a multi-azimuth linkage mechanism which are arranged on the rack, wherein the positioning device is provided with a plurality of positioning devices, the positioning devices on the left side and the right side of the rack are respectively connected with a first driving device and driven to act by the first driving device, the first driving device is also connected with the multi-azimuth linkage mechanism, and the multi-azimuth linkage mechanism is connected with the positioning devices on the front side and the rear side of the rack through a second driving device, so that the positioning devices on the front side and the rear side of the rack are driven to act; the positioning device is used for positioning and aligning the outer edges of the layers of glass and the keel.

In the positioning device, one end of a connecting shaft 5 is sleeved with a return spring 7, the other end of the connecting shaft is fixedly connected with a positioning cushion block 3, and the positioning cushion block can be contacted with the outer edges of upper-layer glass 17, lower-layer glass 18 and keel 1 to position and align the layers of glass and keel; the return spring 7 is positioned inside the frame 2, and one end of the connecting shaft 5 is also positioned inside the frame and connected with the first driving device or the second driving device.

In the positioning device, a boss structure 21 is adopted on one side of the positioning cushion block 3 contacting the keel 1, the high position of the boss contacts with the outer side of the keel, the low position of the boss contacts with each layer of glass, and the height of the boss corresponds to the preset height difference between the keel and the glass.

In the positioning device, the positioning cushion blocks 3 are nylon cushion blocks, and at least two connecting shafts are arranged on one positioning cushion block; the top end of the connecting shaft 5 is tightly inserted into a hole on the synchronizing rod 12 so as to be fixedly connected with the synchronizing rod, or the top end of the connecting shaft is tightly inserted into a hole on the inclined block 8 so as to be fixedly connected with the inclined block, the tail end of the connecting shaft 5 is provided with a screw hole, a pre-buried stud 23 is arranged in the positioning cushion block, the stud is screwed into the screw hole of the connecting shaft so as to fixedly connect the connecting shaft with the positioning cushion block, and a gasket 24 for adjustment can be placed between the end surface. (between the end face of the connecting shaft and the positioning cushion block, a gasket is added when needed, and the gasket is not added when not needed, and is not added under general conditions).

The first driving device of the positioning devices on the left side and the right side of the rack adopts a self-locking cam transmission device; and the second driving devices of the positioning devices on the front side and the rear side of the rack adopt slide block adjusting devices.

The slide block adjusting device comprises two inclined blocks 8 which are contacted with each other through inclined planes, wherein a first inclined block is fixedly connected with a connecting shaft 5 of the positioning device, and a second inclined block is connected with the multi-azimuth linkage device; the multidirectional linkage device pushes the two oblique blocks to move transversely, so that the oblique blocks are pushed to move longitudinally close to the glass, and the positioning device pushes the front side or the rear side of each layer of glass and the keel to be positioned and aligned.

The self-locking cam transmission device comprises a rotating shaft 13, a cam 14 fixed at one end of the rotating shaft and a rotating handle 19 fixed at the other end of the rotating shaft, wherein the rotating shaft is rotatably arranged on a rack 2, the rotating handle is positioned outside the rack, the cam is positioned inside the rack, a self-locking plane 22 is arranged on one side of the cam, and the self-locking plane can be contacted with a multi-azimuth linkage device and a positioning device when the cam rotates, so that the positioning device pushes the left side or the right side of each layer of glass and keel to position and align.

The multidirectional linkage device comprises a synchronous rod 12 arranged in a rack and a screw rod 11 vertically connected to the end part of the synchronous rod, wherein the tail end of the screw rod is connected with a second inclined block 8 in a sliding block adjusting device, and a cam 14 can be contacted with the synchronous rod 12 when rotating so as to push the synchronous rod to move; a backing plate 9 is fixed on the outer side of the frame through a support leg 10 and used for limiting the position of the second inclined block 8 in the front-back direction; a guide rod 4 is fixed inside the machine frame, and a hole in the synchronizing rod 12 is sleeved on the guide rod, so that the synchronizing rod can move left and right along the guide rod.

In the multi-azimuth linkage device, one end of a screw rod 11 is screwed into the second oblique block 8 through threads, the other end of the screw rod is provided with threads and is inserted into a hole at the end part of a synchronous rod 12, nuts 16 are screwed on two sides of the synchronous rod on the screw rod respectively, the synchronous rod is clamped through the two nuts on the screw rod to limit the length of the screw rod inserted into the synchronous rod 12, the relative position of the synchronous rod and the second oblique block 8 is adjusted through rotating the nuts 16, and then the relative displacement of the second oblique block and the first oblique plane of the oblique block is adjusted, so that the stroke of the positioning device in the front-.

A friction-resistant noise-reducing shaft sleeve 6 is fixed at the contact position of the frame 2 and the connecting shaft 5; a lifting handle 20 is mounted on the upper surface of the housing or on the outside of the housing.

A swivel handle 19 is also located on the upper surface of the housing.

The hollow window 15 is an area for placing hollow glass inside the composite tool.

The invention relates to equipment suitable for quickly compounding hollow glass, which can quickly realize the quick positioning and compounding of the glass and a keel, complete centering adjustment and meet the requirements of keeping the verticality and the peripheral distance between the outer side of the glass and the outer side of the keel consistent in the compounding process of the hollow glass.

The invention relates to a rapid compound tool for a double-layer glass keel-added door window, which comprises five main parts, namely a rack integration part, a positioning device, a sliding block adjusting device, a multi-azimuth linkage mechanism and a self-locking cam transmission device, wherein a positioning cushion block is made of nylon. The positioning devices are divided into six groups, and are uniformly distributed in two width directions and two length directions of the frame in a one-two mode. Each group of positioning devices is connected with a slide block adjusting device, and the technological process of positioning is completed in the adjusting process. The invention designs a multi-azimuth linkage mechanism, and realizes the operation control of the left slide block adjusting device, the right slide block adjusting device and the side slide block adjusting device through one node. The invention designs a self-locking cam transmission mechanism, and the cam can realize the self-locking function when moving in place and has the limiting function.

When the specification of the hollow glass is changed (the difference between the transverse dimension and the longitudinal dimension is less than or equal to 5 mm), the relative position of the positioning cushion block of the composite tool needs to be adjusted. When the relative position of the positioning cushion block of the composite tool is adjusted, the transverse and longitudinal relative distances of the positioning cushion block of the composite tool are adjusted according to the external dimensions (transverse dimension and longitudinal dimension) of the hollow glass required to be used. By adjusting the screwing depth of the stud of the connecting shaft, a gasket is added or reduced between the end part of the connecting shaft and the end surface of the positioning cushion block, so that the space between the positioning cushion blocks on the left side and the right side corresponds to the size (transverse size) of the glass in the left-right direction. The positions of the screw rod and the inclined block II are adjusted through rotating the nut, and the positions of the inclined block I and the positioning cushion blocks of the positioning devices on the front side and the rear side are adjusted, so that the distance between the positioning cushion blocks on the front side and the rear side corresponds to the size (longitudinal size) of the glass in the front-rear direction.

The compounding steps of the double-layer glass with the keel are as follows:

the first step is as follows: after the lower layer of glass is wiped cleanly, the lower layer of glass is flatly placed on a workbench, and an operator sleeves a composite tool (a positioning device is in a relaxed state) with a proper type on the lower layer of glass through a lifting auxiliary lifting handle.

The second step is that: after the sleeving is completed, the rotating handles on the two sides are rotated, so that the positioning device of the tool clamps the lower layer glass, the cam is self-locked, and the lower layer glass is positioned.

When the glass is not clamped after the cam is self-locked or the glass is not clamped after the cam is not completed and self-locked and is clamped, the error of the glass is large, and whether the size error of the glass is in the usable range or not needs to be checked in the case. If the error is too large and is not within the usable range, the glass is not used. If the error is within the usable range, the insertion depth of the screw rod in the synchronous rod can be adjusted by adjusting the connecting nut 16 of the screw rod 11 and the synchronous rod 12, so that the relative position of the positioning cushion block in the length direction (front-back direction and longitudinal direction) can be adjusted; the width direction (left-right direction and transverse direction) is adjusted by increasing or decreasing the gaskets between the connecting shaft and the positioning cushion blocks, and the relative position of the positioning cushion blocks in the width direction is adjusted to ensure the assembly precision.

The third step: special double-sided adhesive tapes are adhered to the contact surfaces of the upper side and the lower side of the keel and the glass, the keel is placed in the composite tool, the keel is placed on the lower layer of glass, and the positioning work of the relative positions of the glass and the edge of the keel is completed simultaneously (the upper side and the lower side of the positioning cushion block are provided with chamfers, and the edges of the keel and the glass are also provided with chamfers, so that the keel and the upper layer of glass can be conveniently placed in the composite tool).

The fourth step: and placing upper glass in the composite tool, placing the upper glass on the keel, and simultaneously finishing the positioning of the upper glass and the lower glass and the relative position between the upper glass and the keel.

The fifth step: the protective film of the special double-sided adhesive tape on the keel is pulled off, the hollow glass is pressed, so that the bonding between the glass and between the glass and the keel is firm, the relative position is locked, and the phase position cannot be changed after the tool is removed.

And a sixth step: the small handle is rotated in the reverse direction, the cam is reversely self-locked, the positioning device is restored to the original position under the action of the reset spring, and an operator pulls the auxiliary lifting handle to take the tool away to finish the combination.

After the fifth step is finished, the composite tool can be clamped on the hollow glass all the time, the composite tool and the hollow glass are placed upright together, the plurality of hollow glass are close to each other approximately, the occupied area is saved, the nylon cushion block of the composite tool can relieve the stress of the hollow glass in the vertical direction, and the hollow glass is prevented from bursting. Before the hollow glass is installed on a building, the composite tool is loosened and then detached, and the composite tool can be continuously used for the composite work of other hollow glass.

According to different sizes of hollow glass, the composite tool with different models can be manufactured for use. The composite tool suitable for the hollow glass of three layers of glass can be manufactured according to the same principle.

Claims (10)

1. The utility model provides a cavity glass's compound frock which characterized in that: the positioning devices on the left side and the right side of the rack are respectively connected with a first driving device and driven to act by the first driving device, the first driving device is also connected with a multi-direction linkage mechanism, and the multi-direction linkage mechanism is connected with the positioning devices on the front side and the rear side of the rack through a second driving device so as to drive the positioning devices on the front side and the rear side of the rack to act; the positioning device is used for positioning and aligning the outer edges of the layers of glass and the keel.

2. The composite tooling for hollow glass according to claim 1, characterized in that: in the positioning device, one end of a connecting shaft is sleeved with a return spring, the other end of the connecting shaft is fixedly connected with a positioning cushion block, and the positioning cushion block can be contacted with the outer edges of each layer of glass and the keel to position and align each layer of glass and the keel; the return spring is positioned inside the frame, and one end of the connecting shaft is also positioned inside the frame and is connected with the first driving device or the second driving device.

3. The composite tooling for hollow glass according to claim 2, characterized in that: in the positioning device, one side of the positioning cushion block, which is in contact with the keel, adopts a boss structure, the high part of the boss is in contact with the outer side of the keel, the low part of the boss is in contact with each layer of glass, and the height of the boss corresponds to the preset height difference between the keel and the glass.

4. The composite tooling for hollow glass according to claim 2, characterized in that: in the positioning device, the positioning cushion blocks are nylon cushion blocks, and at least two connecting shafts are arranged on one positioning cushion block; the top end of the connecting shaft is tightly inserted into a hole on the synchronizing rod so as to be fixedly connected with the synchronizing rod, or the top end of the connecting shaft is tightly inserted into a hole on the inclined block so as to be fixedly connected with the inclined block, the tail end of the connecting shaft is provided with a screw hole, a pre-buried stud is arranged in the positioning cushion block, the stud is screwed into the screw hole of the connecting shaft so as to fixedly connect the connecting shaft with the positioning cushion block, and a gasket for adjustment can be placed between the end surface of.

5. The composite tooling for hollow glass according to any one of claims 1 to 4, characterized in that: the first driving device of the positioning devices on the left side and the right side of the rack adopts a self-locking cam transmission device; and the second driving devices of the positioning devices on the front side and the rear side of the rack adopt slide block adjusting devices.

6. The composite tooling for hollow glass according to claim 5, characterized in that: the slide block adjusting device comprises two inclined blocks which are contacted with each other through inclined planes, wherein a first inclined block is fixedly connected with a connecting shaft of the positioning device, and a second inclined block is connected with the multi-azimuth linkage device; the multidirectional linkage device pushes the two oblique blocks to move transversely, so that the oblique blocks are pushed to move longitudinally close to the glass, and the positioning device pushes the front side or the rear side of each layer of glass and the keel to be positioned and aligned.

7. The composite tooling for hollow glass according to claim 5, characterized in that: the self-locking cam transmission device comprises a rotating shaft, a cam fixed at one end of the rotating shaft and a rotating handle fixed at the other end of the rotating shaft, wherein the rotating shaft is rotatably arranged on a rack, the rotating handle is positioned outside the rack, the cam is positioned inside the rack, a self-locking plane is arranged on one side of the cam, and the self-locking plane can be contacted with a multi-azimuth linkage device and a positioning device when the cam rotates, so that the positioning device pushes the left side or the right side of each layer of glass and keel to be positioned and aligned.

8. The composite tooling for hollow glass according to claim 7, is characterized in that: the multi-azimuth linkage device comprises a synchronizing rod arranged in a rack and a screw rod vertically connected to the end part of the synchronizing rod, wherein the tail end of the screw rod is connected with a second inclined block in the sliding block adjusting device, and a cam can be contacted with the synchronizing rod when rotating so as to push the synchronizing rod to move; a backing plate is fixed on the outer side of the frame and used for limiting the position of the two inclined blocks in the front-back direction; a guide rod is fixed inside the rack, and a hole in the synchronizing rod is sleeved on the guide rod, so that the synchronizing rod can move left and right along the guide rod.

9. The composite tooling for hollow glass according to claim 8, is characterized in that: in the multidirectional linkage device, one end of a screw is screwed into the second inclined block through threads, the other end of the screw is provided with threads and is inserted into a hole at the end part of a synchronizing rod, nuts are screwed on two sides of the synchronizing rod on the screw respectively, the synchronizing rod is clamped through two nuts on the screw to limit the length of the screw inserted into the synchronizing rod, the relative position of the synchronizing rod and the second inclined block is adjusted through rotating the nuts, and then the relative displacement of the second inclined block and the first inclined plane of the inclined block is adjusted, so that the stroke of the positioning device in the front-back direction is adjusted.

10. The composite tooling for hollow glass according to claim 2, characterized in that: a friction-resistant noise-reducing shaft sleeve is fixed at the contact position of the frame and the connecting shaft; the upper surface of the frame or the outer side of the frame is provided with a lifting handle.

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