CN115573646B

CN115573646B - Glass product debugging equipment

Info

Publication number: CN115573646B
Application number: CN202211560344.9A
Authority: CN
Inventors: 王中亮; 商文库; 郭宗华; 林延平; 刘妍; 侯英男
Original assignee: China Building Materials Jiaxing Glass Heilongjiang Co ltd
Current assignee: China Building Materials Jiaxing Glass Heilongjiang Co ltd
Priority date: 2022-12-07
Filing date: 2022-12-07
Publication date: 2023-03-10
Anticipated expiration: 2042-12-07
Also published as: CN115573646A

Abstract

The invention relates to glass product debugging equipment, belongs to the technical field of glass installation, and aims to solve the technical problems that height adjustment cannot be performed after a glass door is installed and debugging by the aid of the conventional debugging equipment is difficult. The lubrication operation can be synchronously implemented when the debugging function is implemented and the glass door executes the rotating action.

Description

Glass product debugging equipment

Technical Field

The invention relates to the technical field of glass installation, in particular to glass product debugging equipment.

Background

Organic glass has higher intensity to still have fire behavior, consequently is applied to the preparation revolving door, in order to make the glass revolving door have the rotatability, consequently according to current practice will set up the base at its bottom, have rotary mechanism on the base, with the base fixed to the construction inslot, in order to accomplish the glass door installation.

Because the height of the glass door can not be adjusted according to the actual situation after being installed, when the glass door is debugged by using other external debugging equipment, the glass door is inconvenient to operate, and the glass door is not lubricated for a long time, and large damping can be generated between the bottom end of the glass and the top surface of the base to influence the normal rotation of the glass door.

Disclosure of Invention

Based on the problems, the invention provides glass product debugging equipment, the adjusting function is directly arranged on a base, the base is used for installing a glass door and driving the glass door to rotate by utilizing a rotating mechanism, and the base can also be used for carrying the glass door to carry out height adjustment in a fixing mode, so that the debugging is convenient during initial installation, the debugging can be carried out according to the actual situation during subsequent use, and the debugging equipment and the rotating mechanism thereof can also be lubricated and maintained regularly.

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

a glass product debugging device comprises a base, wherein the base is of a rectangular structure, one end of the base is a solid section, the other end of the base is a hollow section, a rotating mechanism is fixed in an inner cavity of the hollow section, the rotating mechanism is vertically upward, a glass clamping seat capable of rotating synchronously with the rotating mechanism is installed at the top end of the rotating mechanism, the glass clamping seat drives glass to rotate along the top surface of the base under the driving of the rotating mechanism, an arc is downwards formed from the top surface of the solid section of the base, a ball seat in sliding contact with the arc is arranged on the bottom surface of the glass clamping seat, a flow passage for injecting lubricating oil is formed in the solid section, the flow passage consists of two parts and comprises a thick-hole flow passage which is obliquely downwards communicated with the arc and a thin-hole flow passage which is obliquely upwards penetrated through the top surface of the solid section, a step is formed between the thick-hole flow passage and the thin-hole flow passage, a piston rod slides in the flow passage, one end of the piston rod is provided with a ball head corresponding to the arc, the other end of the piston rod is provided with a piston which is tightly matched with the thick-hole flow passage, and a sealing ring which is sleeved on the piston rod and is used for enabling the two ends of the piston rod to move in a reciprocating type spring which is used for enabling the first telescopic flow passage; when the ball seat rotates along the arc-shaped track of the arc to be in contact with the ball head, the ball head is pressed and forced to return to the flow passage with the thick aperture, so that the piston rod performs extrusion oil discharge action on lubricating oil in the flow passage, the oil is discharged to the top surface of the solid section, and the first spring is compressed through the sealing ring; when the ball seat rotates along the arc-shaped track of the arc to be separated from the ball head, the ball head loses pressure and returns to the arc again under the action of the first spring on the elastic force released by the sealing ring, so that the piston rod returns to the position along the flow channel.

As further preferred: a stepped hole is formed upwards from the bottom surface of the solid section, an adjusting column is arranged in the stepped hole in a sliding fit manner, a floor seat arranged in the construction groove is arranged at the bottom end of the adjusting column, a second spring is nested in the stepped hole, the second spring is sleeved on the periphery of the adjusting column, two ends of the second spring are respectively contacted between the reducing part of the stepped hole and the top surface of the floor seat, fixing holes are formed in two sides of the base, screws are arranged in the fixing holes, the base descends along the adjusting column through an action mode that the screws penetrate into the fixing holes and are gradually locked with threaded holes preset in the construction groove, and meanwhile, the stepped hole applies pressure to the second spring until the second spring is gradually shortened, and elasticity is stored; when the screw is loosened, the second spring releases the elastic force and pushes the base to lift along the adjusting column.

As further preferred: the top end of the stepped hole is provided with a branch flow passage communicated with the pore flow passage, one end of the piston rod, which is provided with a piston, is far away from the branch flow passage and is close to the coarse-aperture flow passage, so that the top end of the branch flow passage is communicated with the pore flow passage, part of lubricating oil injected into the pore flow passage enters the stepped hole along the branch flow passage to lubricate the adjusting column, when the piston rod drives the piston to move in the pore flow passage, the top end of the branch flow passage is separated from the pore flow passage, and the pore flow passage stops conveying the lubricating oil to the branch flow passage.

As further preferred: at least two spring seats are fixed on the bottom surface of the hollow section and located on two sides of the adjusting column, the two spring seats are in mirror image relation with each other by taking the plane where the axis of the adjusting column is located and along the length direction of the base as a mirror image plane, and the bottom surfaces of the two spring seats and the bottom surface of the ground seat are on the same horizontal plane.

As further preferred: the size of bulb is less than the size of ball seat, and ball seat and bulb are solid rubber materials and make.

As further preferred: the bottom surface of the glass clamping seat is provided with an oil duct from one end of the solid section to one end of the hollow section, the oil duct is gradually inclined downwards from the solid section to the hollow section, and the bottom surface of the glass clamping seat is in sliding contact with the top surface of the base and can uniformly paint lubricating oil discharged into the oil duct on the bottom surface of the glass clamping seat.

As further preferred: the path of the fine-aperture flow channel is provided with a reducing cavity, the size of an inner cavity of the reducing cavity is smaller than the size of the aperture of the fine-aperture flow channel, the end of the fine-aperture flow channel, which extends to the top surface of the solid section, is provided with a sinking cavity, the size of the aperture of the sinking cavity is larger than that of the fine-aperture flow channel, and a spraying seat provided with a large number of fine holes is arranged in the sinking cavity through internal threads.

As further preferred: the glass clamping seat is provided with a clamping groove with an upward opening along the length direction, chamfers are arranged on two sides of the glass clamping seat along the length direction, and a plurality of counter bores used for vertically fixing glass are arranged between the chamfers and the clamping groove.

Compared with the prior art, the invention has the following beneficial effects:

the glass door is arranged on the base through a glass clamping seat and driven by a rotating mechanism on the base to rotate along the top surface of the base to form a rotating structure of a glass door product, a flow channel is formed in the base, a piston rod is assembled in the flow channel, when the glass clamping seat rotates with the glass door, the piston rod is triggered to compress, negative pressure is formed in the flow channel, lubricating oil in the flow channel is discharged to the top surface of the base through the negative pressure, the bottom surface of the glass clamping seat is lubricated when the glass clamping seat rotates, a user only needs to periodically supplement the lubricating oil into the flow channel, when the glass door is used daily, the piston rod can be triggered through a ball seat on the bottom surface to complete the oil pressing and discharging actions through the ball seat on the bottom surface, a branch flow channel communicated with the flow channel is formed in the part of the base where the debugging function is installed, and under the control of the piston rod, partial lubricating oil can flow into the branch flow channel to the part of the structure where the debugging function is implemented in a controlled state, and the lubricating operation is synchronously implemented when the debugging function is implemented.

Drawings

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

FIG. 2 is a schematic top plan view of the present invention taken from FIG. 1;

FIG. 3 is a schematic plan view of the present invention taken along section A of FIG. 2;

FIG. 4 is a schematic plan view of the present invention taken along section B of FIG. 2;

FIG. 5 is an enlarged view of the portion C of the present invention, which is drawn from FIG. 4;

FIG. 6 is a schematic plan view of the nozzle plate of the present invention;

FIG. 7 is a schematic three-dimensional structure of the present invention;

FIG. 8 is a schematic structural view of the glass clamping seat of the present invention after being removed from the base and the solid portion of the base is partially cut (the hatching at the cutting position in the three-dimensional figure is not drawn, so that the figure can be read easily);

fig. 9 is a schematic structural diagram of the present invention from the top view of fig. 8 showing only the base.

Detailed Description

The technical solutions of the present invention will be described in detail and fully below with reference to the accompanying drawings, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the orientations or positional relationships indicated as the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., appear based on the orientations or positional relationships shown in the drawings only for the convenience of describing the present invention and simplifying the description, but not for indicating or implying that the referred devices or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" should be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be specifically understood by those skilled in the art.

Referring to the attached drawings 1-9, a glass product debugging device comprises a base 1, wherein the base 1 is of a rectangular structure, one end of the base is a solid section 2, the other end of the base is a hollow section 3, a rotating mechanism 4 is fixed in an inner cavity of the hollow section 3, the rotating mechanism 4 is vertically upward, a glass clamping seat 5 capable of synchronously rotating along the rotating mechanism is installed at the top end of the rotating mechanism, a clamping groove 28 with an upward opening is formed in the glass clamping seat 5 along the length direction of the glass clamping seat, chamfers 29 are arranged on two sides of the glass clamping seat 5 along the length direction of the glass clamping seat, a plurality of counter bores 30 for vertically fixing glass are formed between the chamfers 29 and the clamping groove 28, the glass clamping seat 5 can drive the glass to rotate along the top surface of the base 1 under the driving of the rotating mechanism 4, an arc 6 is formed downwards from the top surface of the solid section 2 of the base 1, a ball seat 7 in sliding contact with the arc 6 is arranged on the bottom surface of the glass clamping seat 5, a flow channel 8 for injecting lubricating oil is formed in the solid section 2, the flow channel 8 is composed of two parts, the flow channel 8 comprises a coarse bore flow channel 9 which is inclined downwards and communicated with the arc 6 and a fine bore flow channel 10 which is inclined upwards and penetrates through the top surface of the solid section 2, a step 11 is formed between the coarse bore flow channel 9 and the fine bore flow channel 10, a piston rod 12 is arranged in the flow channel 8 in a sliding manner, one end of the piston rod 12 is provided with a ball head 13 corresponding to the arc 6, the other end of the piston rod 12 is provided with a piston 14 which is tightly matched with the fine bore flow channel 10, one end of the piston rod 12 close to the ball head 13 is provided with a sealing ring 15 which is matched with the coarse bore flow channel 9, and the piston rod 12 is sleeved with a first spring 16, two ends of which are respectively connected between the step 11 and the sealing ring 15 and can make the piston perform reciprocating telescopic action in the flow channel 8; when the ball seat 7 rotates along the arc-shaped track of the arc 6 to contact with the ball head 13, pressure is applied to the ball head 13, and the ball head 13 is forced to return into the flow passage 9 with the large aperture, so that the piston rod 12 performs extrusion oil discharge action on lubricating oil in the flow passage 8, the oil is discharged onto the top surface of the solid section 2, and meanwhile, the first spring 16 is compressed through the sealing ring 15; when the ball seat 7 rotates along the arc-shaped track of the arc 6 to be separated from the ball head 13, the ball head 13 loses pressure and returns to the inside of the arc 6 again under the action of the first spring 16 releasing the elastic force of the sealing ring 15, so that the piston rod 12 returns to the original position along the flow passage 8.

To sum up, the glass door is fixed on the glass clamping seat 5 through the clamping groove 28 and the counter bore 30, then the glass clamping seat 5 is fixed on the rotating mechanism 4, the rotating mechanism 4 can be a motor or a common swivel mount, the glass door can be driven by the rotating mechanism 4 to realize the rotating action when opening or closing the door after being fixed, in the invention, when the glass clamping seat 5 rotates, the ball seat 7 at the bottom end rotates along the circular arc 6, when the ball seat rotates to contact with the ball head 13, pressure is generated on the ball head 13, the ball head 13 pushes the piston rod 12 to move along the flow passage 8, and moves along the inner cavity of the flow passage 8 towards the direction of the pore radial flow passage 10, and pressure is generated in the pore radial flow passage 10, so as to push the lubricating oil injected in the flow passage 8 to the top surface of the solid section 2, and the bottom surface of the glass clamping seat 5 is in sliding contact with the top surface of the base 1 (the solid section 2), therefore, when the glass clamping seat 5 rotates, the lubricating oil discharged into the oil duct 31 can be uniformly smeared on the bottom surface of the glass clamping seat 5, so that the bottom surface of the glass clamping seat achieves the purpose of regular lubrication, a user only needs to dismantle the spray seat 26 in the sinking cavity 25 and then regularly inject the lubricating oil into the fine-aperture flow channel 10, along with the rotating action generated during the actual use of the glass door, the lubricating oil in the flow channel 8 can be started to be smeared between the bottom surface of the base 1 and the bottom surface of the glass clamping seat 5, no separate labor is needed, the lubricating work is convenient to operate, the rotating mechanism 4 is positioned in the hollow section 3 of the base 1, so that the base 1 saves materials, the central section 2 can still bear the weight of the glass and the glass clamping seat 5, and the glass clamping seat 5 can rotate more stably with the glass, when oil is injected into the flow channel 8 periodically, the glass clamping seat 5 only needs to be rotated to expose the spray seat 26, then the spray seat 26 is detached to realize oil liquid supplement, the bottom surface of the glass clamping seat 5 can be lubricated by utilizing the rotating action of the glass clamping seat 5, other power mechanisms do not need to be additionally added in the lubricating process, the oiling mode does not influence the attractiveness of the base 1 and the glass clamping seat 5, and the hiding performance is good.

As shown in fig. 4 and 8: a stepped hole 17 is formed upwards from the bottom surface of the solid section 2, an adjusting column 18 is in sliding fit in the stepped hole 17, a floor base 19 arranged in a construction groove is arranged at the bottom end of the adjusting column 18, a second spring 20 is nested in the stepped hole 17, the second spring 20 is sleeved on the periphery of the adjusting column 18, two ends of the second spring 20 are respectively contacted between a diameter-variable part of the stepped hole 17 and the top surface of the floor base 19, fixing holes 21 are formed in two sides of the base 1, screws are arranged in the fixing holes 21, the screws penetrate through the fixing holes 21 and are gradually locked with threaded holes preset in the construction groove, so that the base 1 descends along the adjusting column 18, meanwhile, the stepped hole 17 applies pressure to the second spring 20 until the second spring is gradually shortened, and elasticity is stored; when the screw is loosened, the second spring 20 releases the spring force and pushes the base 1 to perform a lifting action along the adjustment column 18. At least two spring seats 23 positioned at two sides of the adjusting column 18 are fixed on the bottom surface of the hollow section 3, the two spring seats 23 are in mirror image relationship with each other by taking the plane where the axis of the adjusting column 18 is positioned and along the length direction of the base 1 as a mirror image plane, and the bottom surfaces of the two spring seats 23 and the bottom surface of the landing seat 19 are on the same horizontal plane. In summary, after the revolving door is used for a long time, a gap may be formed between the top end or the bottom end of the revolving door and the door frame or the ground, or the top end or the bottom end of the revolving door is restricted due to the deformation of the door frame, at this time, the user can adjust the screw, when the screw moves upward while rotating, the tightening force applied to the solid section 2 is gradually reduced, the second spring 20 gradually releases the elastic force, so that the base 1 moves upward, when the base 1 moves upward, the glass clamping seat 5 is driven to move upward, and the glass clamping seat 5 drives the glass door to move upward. On the contrary, when the screw rotates and moves downwards, the glass door can move downwards, so that the top end or the bottom end of the glass door can be adjusted according to the actual use condition of the glass door. The stepped bore 17 and the adjustment post 18 in the adjustment function are essentially a set of slip-fit assembly structures that will fail if not regularly maintained. For example, if the stepped hole 17 and the adjusting post 18 are rusted with each other, the adjustment and use thereof are limited.

Therefore, in order to solve the problem, the invention also utilizes the functional characteristic that the flow passage 8 has the function of providing lubricating oil, and the lubricating function of the flow passage is extended to a position between the stepped hole 17 and the adjusting column 18 of the height adjusting function, and the specific structure is as follows: a branch flow passage 27 is arranged between the fine pore flow passage 10 and the stepped hole 17, one end of the piston rod 12, which is provided with the piston 14, is far away from the branch flow passage 27 and is close to the coarse pore flow passage 9, so that the top end of the branch flow passage 27 is communicated with the fine pore flow passage 10, part of lubricating oil injected into the fine pore flow passage 10 enters the stepped hole 17 along the branch flow passage 27 to lubricate the adjusting column 18, when the piston rod 12 drives the piston 14 to move in the fine pore flow passage 10, the top end of the branch flow passage 27 is separated from the fine pore flow passage 10, the fine pore flow passage 10 is closed, negative pressure is generated, and the lubricating oil is pushed to the top surface of the solid section 2 along the fine pore flow passage 10 by utilizing the negative pressure to lubricate and maintain the bottom surface of the glass clamping seat 5.

When the glass clamping seat 5 rotates to separate the ball seat 7 at the bottom of the glass clamping seat from the ball head 13, the ball head 13 is not pressed any more, so that the glass clamping seat is retracted into the circular arc 6, meanwhile, the piston rod 12 carries the piston 14 to retract and move towards the direction of the rough bore flow channel 9, the top end of the branch flow channel 27 is opened, and the flow channel 8 is gradually inclined downwards towards the direction of the rough bore flow channel 9, so that the other part of the lubricating oil in the flow channel 8 flows towards the direction of the rough bore flow channel 9 and also flows into the branch flow channel 27, and finally flows into the stepped hole 17 from the bottom end of the branch flow channel 27, so as to regularly lubricate the inner wall of the stepped hole 17, and simultaneously flows onto the adjusting column 18 to lubricate and maintain the inner wall of the stepped hole 17. The adjusting function formed by the adjusting column 18 and the second spring 20 also has a buffering function, when the glass door rotates, vibration is generated, the vibration force is transmitted to the base 1 through the glass clamping seat 5 and then transmitted to the second spring 20 and the spring seat 23 through the base 1, the vibration force is buffered by the spring seat 23 and the second spring 20, and when the buffering function is performed, the base 1 can slide up and down along the adjusting column 18 through the stepped hole 17, so that lubricating oil flowing to the adjusting column 18 and the stepped hole 17 can be completely smeared, the adjusting function formed by the adjusting column 18, the second spring 20 and the like can be maintained daily by utilizing the rotating action of the rotating door when the door is opened or closed in actual use, and the rotating function of the glass clamping seat 5 when the glass clamping seat rotates along the top surface of the base 1 can be maintained daily, and the design is ingenious.

The bottom surface of the glass clamping seat 5 is provided with an oil duct 31 from one end of the solid section 2 to one end of the hollow section 3, the oil duct 31 is filled with a cotton sliver, the oil duct 31 is gradually inclined downwards from the solid section 2 to the hollow section 3 and is used for immersing lubricating oil coated on the glass clamping seat 5 above the hollow section 3 along the cotton sliver in the oil duct 31, and then the lubricating oil is coated on the rotating mechanism 4 through the hollow section 3, for example, when the rotating mechanism 4 is a rotating seat, the lubricating oil can flow onto a rotating shaft of the rotating seat to lubricate the rotating shaft, for example, when the rotating mechanism 4 is driven by a motor, the lubricating oil can flow onto a motor shaft to lubricate the motor shaft.

The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.

Claims

1. The utility model provides a glass product debugging equipment, includes base (1), its characterized in that: the base (1) is of a rectangular structure, one end of the base is a solid section (2), the other end of the base is a hollow section (3), a rotating mechanism (4) is fixed in an inner cavity of the hollow section (3), the rotating mechanism (4) vertically faces upwards, a glass clamping seat (5) capable of rotating synchronously with the rotating mechanism is installed at the top end of the rotating mechanism, the glass clamping seat (5) drives glass to rotate along the top surface of the base (1) under the driving of the rotating mechanism (4), an arc (6) is downwards arranged from the top surface of the solid section (2) of the base (1), a ball seat (7) in sliding contact with the arc (6) is arranged on the bottom surface of the glass clamping seat (5), a flow channel (8) used for injecting lubricating oil is arranged in the solid section (2), the flow channel (8) is composed of two parts and comprises a thick-hole flow channel (9) which inclines downwards and is communicated with the arc (6) and a thin-hole flow channel (10) which inclines upwards to penetrate through the top surface of the solid section (2), a piston rod (12) is arranged at one end of the piston rod (12) and is closely matched with a piston rod (12) arranged in the piston rod (12), one end of the piston rod (12) close to the bulb (13) is provided with a sealing ring (15) matched in the large-aperture flow channel (9), and the piston rod (12) is sleeved with a first spring (16) of which two ends are respectively connected between the step (11) and the sealing ring (15) and used for enabling the piston rod to do reciprocating telescopic action in the flow channel (8); when the ball seat (7) rotates along the arc-shaped track of the arc (6) to be in contact with the ball head (13), the ball head (13) is pressed, the ball head (13) is forced to return into the coarse-bore flow channel (9), so that the piston rod (12) performs extrusion oil discharge action on lubricating oil in the flow channel (8), the oil is discharged onto the top surface of the solid section (2), and the first spring (16) is compressed through the sealing ring (15); when the ball seat (7) rotates along the arc-shaped track of the arc (6) to be separated from the ball head (13), the ball head (13) loses pressure and returns to the arc (6) again under the action of the first spring (16) releasing elasticity to the sealing ring (15), so that the piston rod (12) retracts along the flow channel (8) to reset;

a stepped hole (17) is formed in the bottom surface of the solid section (2) upwards, an adjusting column (18) is arranged in the stepped hole (17) in a sliding fit mode, a floor base (19) arranged in a construction groove is arranged at the bottom end of the adjusting column (18), a second spring (20) is nested in the stepped hole (17), the second spring (20) is sleeved on the periphery of the adjusting column (18), two ends of the second spring (20) are respectively contacted between the reducing portion of the stepped hole (17) and the top surface of the floor base (19), fixing holes (21) are formed in two sides of the base (1), screws are arranged in the fixing holes (21), the base (1) descends along the adjusting column (18) through an action mode that the screws penetrate through the fixing holes (21) and are gradually locked with threaded holes preset in the construction groove, meanwhile, the stepped hole (17) applies pressure to the second spring (20) until the second spring is gradually shortened, and elasticity is stored; when the screw is loosened, the second spring (20) releases the elastic force and pushes the base (1) to perform lifting action along the adjusting column (18).

2. The glass product commissioning apparatus of claim 1, wherein: the top end of the stepped hole (17) is provided with a branch flow passage (27) communicated with the fine-aperture flow passage (10), when the ball seat (7) rotates along the track of the circular arc (6) to be separated from the ball head (13), the ball head (13) loses extrusion, and retracts into the circular arc (6) under the action of elastic force of the first spring (16) on the sealing ring (15), one end of the piston rod (12) provided with the piston (14) retracts into the coarse-aperture flow passage (9) under the driving of the piston rod (12), the top end of the branch flow passage (27) is communicated with the fine-aperture flow passage (10), so that part of lubricating oil injected into the fine-aperture flow passage (10) enters the stepped hole (17) along the branch flow passage (27) to lubricate the adjusting column (18), and when the piston rod (12) drives the piston (14) to displace in the fine-aperture flow passage (10), the top end of the branch flow passage (27) and the fine-aperture flow passage (10) are separated from each other.

3. The glass product commissioning device of claim 1, wherein: the bottom surface of the hollow section (3) is fixed with at least two spring seats (23) which are positioned at two sides of the adjusting column (18), the two spring seats (23) are in mirror image relation with each other by taking the plane where the axis of the adjusting column (18) is positioned and along the length direction of the base (1) as a mirror image plane, and the bottom surfaces of the two spring seats (23) and the bottom surface of the landing seat (19) are on the same horizontal plane.

4. The glass product commissioning device of claim 1, wherein: the size of the ball head (13) is smaller than that of the ball seat (7), and the ball seat (7) and the ball head (13) are both made of solid rubber materials.

5. The glass product commissioning apparatus of claim 3, wherein: the bottom surface of the glass clamping seat (5) is provided with an oil duct (31) from one end of the solid section (2) to one end of the hollow section (3), a cotton sliver is filled in the oil duct (31), the oil duct (31) is gradually inclined downwards from the solid section (2) to the hollow section (3), the bottom surface of the glass clamping seat (5) is in sliding contact with the top surface of the base (1), and lubricating oil discharged into the oil duct (31) can be uniformly coated on the bottom surface of the glass clamping seat (5).

6. The glass product commissioning device of claim 4, wherein: be equipped with reducing chamber (24) on the route of aperture runner (10), the inner chamber size in reducing chamber (24) is less than the aperture size of aperture runner (10), and aperture size is greater than heavy chamber (25) of aperture runner (10) are offered to the end that aperture size extends to on solid section (2) top surface in aperture runner (10), installs spray seat (26) of seting up a large amount of micropores through the internal thread in heavy chamber (25).

7. The glass product commissioning device of claim 1, wherein: the glass clamping seat (5) is provided with a clamping groove (28) with an upward opening along the length direction, chamfers (29) are arranged on two sides of the glass clamping seat (5) along the length direction, and a plurality of counter bores (30) used for vertically fixing glass are arranged between the chamfers (29) and the clamping groove (28).