CN112697620A

CN112697620A - Glass quality detection equipment for intelligent manufacturing

Info

Publication number: CN112697620A
Application number: CN202011557468.2A
Authority: CN
Inventors: 王芳波
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-25
Filing date: 2020-12-25
Publication date: 2021-04-23

Abstract

The invention relates to detection equipment, in particular to glass quality detection equipment for intelligent manufacturing. The invention aims to provide glass quality detection equipment for intelligent manufacturing, which is used for detecting glass by easily knocking, automatically clamping and fixing the glass, automatically pushing out the glass, facilitating glass slag breaking and providing buffering for glass falling, and solves the problem to be solved. The technical embodiment of the invention is a glass quality detection device for intelligent manufacturing, which comprises: the upper part of the base is provided with a pedal mechanism; the pressing mechanism is arranged on the pedal mechanism. According to the invention, the sliding frame and the first wedge-shaped block are driven to move downwards by stepping on and pressing the pedal, so that the sliding chute is driven to move downwards, meanwhile, the downward movement of the wedge-shaped rod pushes the second wedge-shaped block to move forwards, and under the reset action of the second spring, the knocking rod is pushed to knock the glass downwards, so that the effect of easily realizing the glass quality detection is achieved.

Description

Glass quality detection equipment for intelligent manufacturing

Technical Field

The invention relates to detection equipment, in particular to glass quality detection equipment for intelligent manufacturing.

Background

In intelligent manufacturing, glass is required as a raw material, and after the glass is manufactured, quality detection is necessary to ensure subsequent use.

Traditional glass quality detection gimmick for intelligent manufacturing, after promoting glass to suitable position manually, under the effect of existing equipment, drive and strike the pole and reciprocate repeatedly, strike glass, glass is broken into pieces promptly for unqualified, the qualified glass that can't break into pieces is then removed and is collected, this kind of method, at first glass is not fixed after placing, takes place the skew easily, the influence detects, manual release glass, hard and consuming time, the broken glass dregs of breaking into pieces splash at will, are difficult to collect, directly release glass, glass drops and breaks into pieces easily.

Therefore, how to design a light detection glass that strikes, self-holding fixes glass, and automatic release glass makes things convenient for the glass disintegrating slag, drops for glass and provides the glass quality testing equipment that is used for intelligent manufacturing of buffering, becomes the problem that will solve.

Disclosure of Invention

In order to overcome the defects that in the prior art, glass is unstable, manual pushing efficiency is low, broken glass splashes, and glass falls and is easy to break, the invention has the technical problems that: the utility model provides a light detection glass that strikes, self-holding fixes glass, and automatic release glass makes things convenient for the glass disintegrating slag, drops for glass and provides the glass quality testing equipment that is used for intelligent manufacturing of buffering, becomes the problem that will solve.

The technical implementation scheme of the invention is as follows: a glass quality detection device for intelligent manufacturing, comprising: the upper part of the base is provided with a pedal mechanism; the pressing mechanism is arranged on the pedal mechanism.

More preferably, the pedal mechanism includes: the middle of the upper part of the base is connected with a first support frame; the upper part of the first support frame is connected with a connecting frame; one side of the upper part of the base is connected with a second support frame; one side of the upper part of the second support frame is connected with the sliding groove in a sliding way; the first spring is connected between the lower part of the sliding chute and the base; one side of one part of the second support frame is connected with the sliding frame in a sliding way; one side of one part of the sliding frame is connected with the pedal; the middle of the middle part of the sliding frame is connected with a first connecting rod; one side of the first connecting rod is connected with a first wedge-shaped block, and the first wedge-shaped block is matched with the lower side of the sliding groove.

More preferably, the pressing mechanism includes: the second connecting rod is connected with the inside of the upper side of the sliding chute; the second connecting rod is connected with a knocking rod in a sliding manner; the second spring is connected between the knocking rod and the sliding chute and sleeved on the second connecting rod; the upper side of the second support frame is connected with a first fixed rod; one side of the upper part of the first fixed rod is connected with a third connecting rod in a sliding way; one side of the third connecting rod is connected with a second wedge-shaped block, and the second wedge-shaped block is matched with the knocking rod; the third spring is connected between the second wedge-shaped block and the first fixed rod and sleeved on the third connecting rod; the middle part of one side of the upper part of the sliding frame is connected with a second fixed rod; and one side of the upper part of the second fixed rod is connected with a wedge rod, and the wedge rod is matched with the third connecting rod.

More preferably, the clamping device further comprises a clamping assembly, wherein the clamping assembly comprises: a fourth connecting rod is symmetrically connected to one side of the upper part of the sliding frame; the fifth connecting rod is connected in one side of one part of the connecting frame; the first sliding strip is connected with the fifth connecting rod in a sliding manner, the first sliding strip is connected with the upper part of the first support frame in a sliding manner, and the first sliding strip is matched with the fourth connecting rod; a fourth spring is connected between one side of the first sliding strip and the connecting frame and sleeved on the fifth connecting rod; one side of the upper part of the first support frame is connected with a second sliding strip in a sliding way; a fifth spring is connected between one side of the first slide bar and the first support frame; the connecting line is connected between one side of one part of the first sliding strip and one side of one part of the second sliding strip; and one side of the upper part of the first support frame is connected with the winding block, and the connecting wire bypasses the winding block.

More preferably, the device further comprises a pushing assembly, wherein the pushing assembly comprises: one side of the upper part of the first support frame is connected with a third fixed rod; the middle part of the third fixed rod is connected with a sixth connecting rod in a sliding way; a sixth spring is connected between one part of the sixth connecting rod and the third fixing rod and sleeved on the sixth connecting rod; the middle part of one side of the fourth connecting rod on one side of the first connecting block is connected with the first connecting block; one side of the upper part of the first support frame is connected with the seventh connecting rod in a sliding manner; one side of the seventh connecting rod is connected with a second connecting rod in a sliding manner, and the second connecting rod is matched with the first connecting block; a seventh spring is connected between the eighth connecting rod and the seventh connecting rod, and the seventh spring is sleeved on the eighth connecting rod; one side of the seventh connecting rod is connected with a third wedge, and the third wedge is matched with the sixth connecting rod; and an eighth spring is connected between the third wedge block and the first support frame and sleeved on the seventh connecting rod.

More preferably, the collecting device further comprises a collecting component, wherein the collecting component comprises: the collecting tank is connected between the two sides of the upper part of the first support frame in a sliding manner; the upper side of the collecting tank is connected with a ninth spring; the upper side of the ninth spring is connected with a second connecting block; the handle, second connecting block and first support frame are mutually supported, and collecting vat one side middle part is connected with the handle.

More preferably, the support device further comprises a buffer assembly, and the buffer assembly is arranged on one side of the upper part of the first support frame.

More preferably, the buffer assembly includes: the frame is connected to one side of the upper part of the first support frame; ninth connecting rods are connected to the two sides of the lower portion of the frame in a sliding mode; the inclined plate is connected between the upper sides of the ninth connecting rods; and the tenth spring is symmetrically connected between the inclined plate and the frame and sleeved on the ninth connecting rod.

Compared with the prior art, the invention has the following advantages: 1. according to the invention, the sliding frame and the first wedge-shaped block are driven to move downwards by stepping on and pressing the pedal, so that the sliding chute is driven to move downwards, meanwhile, the downward movement of the wedge-shaped rod pushes the second wedge-shaped block to move forwards, and under the reset action of the second spring, the knocking rod is pushed to knock the glass downwards, so that the effect of easily realizing the glass quality detection is achieved.

2. According to the glass clamping device, the fourth connecting rod moves downwards to push the first sliding strip to move leftwards, the connecting wire drives the second sliding strip to move rightwards, and glass is clamped and fixed, so that the effect of automatically clamping and fixing the glass is achieved, and the glass is prevented from being deviated to influence detection.

3. According to the invention, the first connecting block is driven to move upwards by the fourth connecting rod, the seventh connecting rod is pushed to move rightwards by matching with the eighth connecting rod, the third wedge block is driven to move rightwards, the sixth connecting rod is pushed to move backwards under the reset action of the sixth spring, and the glass is pushed out, so that the effect of simply and conveniently pushing out the glass is achieved, and the glass is convenient and labor-saving.

4. According to the invention, the collecting tank is pushed to move rightwards, the second connecting block moves downwards and upwards firstly, and is clamped in the first supporting frame, so that the collecting tank is fixed, broken glass slag is received, the effect of conveniently collecting the glass slag is achieved, the glass slag is prevented from splashing, and the collecting tank can be stabilized.

5. According to the invention, the glass is pushed out to the inclined plate, the tenth spring is compressed, and then the glass is taken down, so that the effect of buffering the falling of the glass is achieved, and the glass is prevented from being damaged.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the pedal mechanism and the pressing mechanism of the present invention.

Fig. 3 is an enlarged perspective view of the present invention a.

Fig. 4 is an enlarged perspective view of the present invention B.

Fig. 5 is a schematic perspective view of the clamping assembly and the pushing assembly of the present invention.

Fig. 6 is an enlarged perspective view of the present invention C.

Fig. 7 is a schematic perspective view of the collecting assembly and the buffering assembly of the present invention.

Fig. 8 is an enlarged perspective view of the present invention D.

The parts are labeled as follows: 1. the pedal mechanism comprises a base, a pedal mechanism 21, a first support frame, a second support frame, a support 23, a sliding chute, a sliding frame, a 25, a first spring, a 26, a first connecting rod, a 27, a first wedge-shaped block, a 28, a pedal, a 29, a connecting frame, a 3, a pressing mechanism, a 31, a knocking rod, a 32, a second connecting rod, a 33, a second spring, a 34, a first fixing rod, a 35, a third connecting rod, a 36, a third spring, a 37, a second wedge-shaped block, a 38, a second fixing rod, a 39, a wedge-shaped rod, a 4, a clamping assembly, a 41, a fourth connecting rod, a 42, a first sliding strip, a 43, a fifth connecting rod, a 44, a fourth spring, a 45, a second sliding strip, a 46, a winding block, a 47, a connecting wire, a 48, a fifth spring, a 5, a material pushing assembly, a 51, a third fixing rod, a 52, a sixth connecting rod, a 53, eighth connecting rod, 57, seventh spring, 58, third wedge block, 59, eighth spring, 6, collecting assembly, 61, collecting tank, 62, second connecting block, 63, ninth spring, 64, handle, 7, buffer assembly, 71, frame, 72, ninth connecting rod, 73, tenth spring, 74, swash plate.

Detailed Description

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

Example 1

A glass quality detection device for intelligent manufacturing is shown in figures 1, 2, 3 and 4 and comprises a base 1, a pedal mechanism 2 and a pressing mechanism 3, wherein the pedal mechanism 2 is arranged on the upper portion of the base 1, and the pressing mechanism 3 is arranged on the pedal mechanism 2.

The pedal mechanism 2 comprises a first support frame 21, a second support frame 22, a sliding groove 23, a sliding frame 24, a first spring 25, a first connecting rod 26, a first wedge block 27, a pedal plate 28 and a connecting frame 29, the first support frame 21 is connected to the middle of the upper portion of the base 1, the connecting frame 29 is connected to the upper portion of the first support frame 21, the second support frame 22 is connected to the right side of the upper portion of the base 1, the sliding groove 23 is connected to the right side of the upper portion of the second support frame 22 in a sliding mode, the first spring 25 is connected between the lower portion of the sliding groove 23 and the base 1, the sliding frame 24 is connected to the left rear side of the second support frame 22 in a sliding mode, the pedal plate 28 is connected to the right side of the front portion of the sliding frame 24, the first connecting rod 26 is connected.

The pushing mechanism 3 comprises a knocking rod 31, a second connecting rod 32, a second spring 33, a first fixing rod 34, a third connecting rod 35, a third spring 36, a second wedge block 37, a second fixing rod 38 and a wedge rod 39, the second connecting rod 32 is connected with the upper side of the sliding chute 23, the knocking rod 31 is connected with the second connecting rod 32 in a sliding manner, the second spring 33 is connected between the knocking rod 31 and the sliding chute 23, the second spring 33 is sleeved on the second connecting rod 32, the right front side of the upper part of the second supporting frame 22 is connected with the first fixing rod 34, the left side of the upper part of the first fixing rod 34 is connected with the third connecting rod 35 in a sliding manner, the rear side of the third connecting rod 35 is connected with the second wedge block 37, the second wedge block 37 is matched with the knocking rod 31, the third spring 36 is connected between the second wedge block 37 and the first fixing rod 34, the third spring 36 is sleeved on the third connecting rod 35, the middle part of the front side of the upper part, the second fixing rod 38 is connected with a wedge rod 39 at the upper front side, and the wedge rod 39 is matched with the third connecting rod 35.

When a user needs to detect the quality of glass for intelligent manufacturing, firstly, the glass is placed between the first support frame 21 and the connecting frame 29, the foot pedal 28 is pressed to drive the sliding frame 24 to move downwards, so as to drive the first connecting rod 26 and the first wedge block 27 to move downwards, so that the first wedge block 27 drives the sliding chute 23 to move downwards, the first spring 25 and the second spring 33 are compressed, meanwhile, the sliding frame 24 also drives the second fixing rod 38 and the wedge rod 39 to move downwards, after the wedge rod 39 contacts the third connecting rod 35, the third connecting rod 35 is pushed to move forwards, so as to drive the second wedge block 37 to move forwards, the third spring 36 is compressed, the second wedge block 37 does not abut against the knocking rod 31, under the action of the second spring 33, the knocking rod 31 is pushed to move downwards to restore to the original state, the glass is knocked, the glass is qualified if the glass is not smashed, and the glass is unqualified if the glass is broken glass, after the detection is finished, the pedal 28 is released, the sliding chute 23 and the sliding frame 24 are pushed to move upwards under the action of the first spring 25, the second fixing rod 38 and the wedge-shaped rod 39 are driven to move upwards to be far away from the third connecting rod 35, the second wedge-shaped block 37 is pushed to move backwards under the action of the third spring 36, the original state is recovered, and the reciprocating operation is carried out, so that the effect of easily realizing the glass quality detection is achieved.

Example 2

On the basis of the embodiment 1, as shown in fig. 1, 2, 5, 6, 7 and 8, the clamping device 4 is further included, the clamping device 4 includes a fourth connecting rod 41, a first slide 42, a fifth connecting rod 43, a fourth spring 44, a second slide 45, a winding block 46, a connecting wire 47 and a fifth spring 48, the fourth connecting rod 41 is symmetrically connected to the front and the back of the left side of the upper portion of the sliding frame 24, the fifth connecting rod 43 is connected to the right side of the front portion of the connecting frame 29, the first slide 42 is slidably connected to the fifth connecting rod 43, the first slide 42 is slidably connected to the upper portion of the first support frame 21, the first slide 42 and the fourth connecting rod 41 are mutually matched, the fourth spring 44 is connected between the left side of the first slide 42 and the connecting frame 29, the fourth spring 44 is sleeved on the fifth connecting rod 43, the left side of the upper portion of the first support frame 21 is slidably connected to the second slide 45, the fifth spring 48 is connected between the right side of the front portion of the second slide 45 and the first support frame, a connecting line 47 is connected between the front side of the right part of the first slide bar 42 and the front side of the right part of the second slide bar 45, a winding block 46 is connected with the front side of the right part of the upper part of the first support frame 21, and the connecting line 47 bypasses the winding block 46.

The sliding rack 24 moves downwards, which drives the fourth connecting rod 41 to move downwards, pushing the first sliding bar 42 to move leftwards, the fourth spring 44 is compressed, pulling the connecting line 47 to move leftwards, thereby pulling the second slide bar 45 to move rightwards, compressing the fifth spring 48, leading the first slide bar 42 and the second slide bar 45 to be close to each other to clamp the glass, after the detection is finished, the carriage 24 moves upward, causing the fourth connecting rod 41 to move upward away from the first slide 42, under the action of the fourth spring 44, the first slide 42 is pushed to move rightwards, the connecting line 47 is not pulled any more, under the action of the fifth spring 48, the second slide bar 45 is pushed to move leftwards and restore to the original state, the glass is loosened, qualified glass can be pushed to move backwards, the glass is uniformly collected after the glass is moved out of the first support frame 21, the automatic clamping and fixing effects on the glass are achieved, and the glass is prevented from being deviated to affect detection.

The pushing assembly 5 is further included, the pushing assembly 5 includes a third fixing rod 51, a sixth connecting rod 52, a sixth spring 53, a first connecting block 54, a seventh connecting rod 55, an eighth connecting rod 56, a seventh spring 57, a third wedge block 58 and an eighth spring 59, the third fixing rod 51 is connected to the left front side of the upper portion of the first support frame 21, the sixth connecting rod 52 is connected to the middle portion of the third fixing rod 51 in a sliding manner, the sixth spring 53 is connected between the front portion of the sixth connecting rod 52 and the third fixing rod 51, the sixth spring 53 is sleeved on the sixth connecting rod 52, the first connecting block 54 is connected to the right middle portion of the front side fourth connecting rod 41, the seventh connecting rod 55 is connected to the right front side of the upper portion of the first support frame 21 in a sliding manner, the seventh connecting rod 55 is connected to the right rear side in a sliding manner, the eighth connecting rod 56 is matched with the first connecting block 54, the seventh spring 57 is connected between the eighth connecting rod 56 and, the seventh spring 57 is sleeved on the eighth connecting rod 56, the left front side of the seventh connecting rod 55 is connected with a third wedge block 58, the third wedge block 58 is matched with the sixth connecting rod 52, an eighth spring 59 is connected between the third wedge block 58 and the first supporting frame 21, and the eighth spring 59 is sleeved on the seventh connecting rod 55.

In the initial state, the sixth connecting rod 52 is supported by the third wedge 58, the sixth spring 53 is stretched, when the front fourth connecting rod 41 moves downwards, the first connecting block 54 is driven to move downwards, when the eighth connecting rod 56 contacts with the front left inclined surface of the first connecting block 54, the eighth connecting rod 56 is driven to move forwards, the seventh spring 57 is compressed, after the first connecting block 54 continues to move downwards and away from the eighth connecting rod 56, the eighth connecting rod 56 is driven to move backwards under the action of the seventh spring 57 and returns to the original state, after the detection is finished, when the front fourth connecting rod 41 moves upwards, the first connecting block 54 is driven to move upwards, after the first connecting block 54 contacts with the eighth connecting rod 56, the eighth connecting rod 56 is driven to move rightwards, the seventh connecting rod 55 and the third wedge 58 are driven to move rightwards, the eighth spring 59 is compressed, after the third wedge 58 disengages from the sixth connecting rod 52, under the action of the sixth spring 53, the sixth connecting rod 52 is pushed to move backwards, so that the glass is pushed out of the first supporting frame 21 and collected uniformly, after the glass is pushed out, the sixth connecting rod 52 is pulled to move forwards, the sixth spring 53 is stretched, the first connecting block 54 continues to move upwards and away from the eighth connecting rod 56, under the action of the eighth spring 59, the seventh connecting rod 55 and the third wedge 58 are pushed to move leftwards, the third wedge 58 props against the sixth connecting rod 52 again, the glass is restored to the original state, and the reciprocating is carried out, so that the effect of simply pushing out the glass is achieved, and the glass is convenient and labor-saving.

Still including collecting the subassembly 6, collect subassembly 6 including collecting vat 61, second connecting block 62, ninth spring 63, handle 64, slidingly be connected with collecting vat 61 between the both sides around first support frame 21 upper portion, the left rear side in collecting vat 61 upper portion is connected with ninth spring 63, ninth spring 63 upside is connected with second connecting block 62, second connecting block 62 mutually supports with first support frame 21, collecting vat 61 left side middle part is connected with handle 64.

The handle 64 is held, the collecting groove 61 is pushed to move rightwards to the upper part of the first supporting frame 21, the second connecting block 62 is pressed to move downwards, the ninth spring 63 is compressed, after the collecting groove 61 is completely placed, under the action of the ninth spring 63, the second connecting block 62 is pushed to move upwards and is clamped in the first supporting frame 21, the collecting groove 61 is fixed, if the detected glass is not qualified, the broken glass slag falls into the collecting tank 61, after the detection is finished, the handle 64 is pulled by force to drive the collecting groove 61 to move leftwards, the second connecting block 62 moves downwards, the ninth spring 63 is compressed, after the collecting groove 61 is completely taken out, under the action of the collecting groove 61, the second connecting block 62 is pushed to move upwards, the original state is restored, can be everywhere with the glass sediment, so reciprocal reaches the effect of conveniently collecting the glass sediment, prevents that the glass sediment from splashing, can stabilize collecting vat 61 simultaneously.

The buffer component 7 comprises a frame 71, a ninth connecting rod 72, a tenth spring 73 and an inclined plate 74, the frame 71 is connected to the rear side of the upper portion of the first support frame 21, the ninth connecting rod 72 is connected to the left side and the right side of the lower portion of the frame 71 in a sliding mode, the inclined plate 74 is connected between the upper sides of the ninth connecting rod 72, the tenth spring 73 is connected between the inclined plate 74 and the frame 71 in a bilateral symmetry mode, and the tenth spring 73 is sleeved on the ninth connecting rod 72.

Glass pushes out the back backward, will slide off to the swash plate 74 on, under gravity and inertia effect, promotes swash plate 74 downstream, and tenth spring 73 is compressed, takes off glass from swash plate 74 after, under tenth spring 73's effect, promotes swash plate 74 rebound, resumes to original state, so reciprocal, reaches the effect that provides the buffering for glass drops, avoids glass to damage.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. A glass quality detection equipment for intelligent manufacturing, characterized by including:

the upper part of the base (1) is provided with a pedal mechanism (2);

the pressing mechanism (3) is arranged on the pedal mechanism (2).

2. A glass quality testing apparatus for intelligent manufacturing according to claim 1, wherein the pedal mechanism (2) comprises:

the middle of the upper part of the base (1) is connected with a first support frame (21);

the upper part of the first support frame (21) is connected with the connecting frame (29);

one side of the upper part of the base (1) is connected with a second supporting frame (22);

one side of the upper part of the second support frame (22) is connected with the sliding chute (23) in a sliding way;

the first spring (25) is connected between the lower part of the sliding groove (23) and the base (1);

a sliding frame (24), one side of the second supporting frame (22) is connected with the sliding frame (24) in a sliding way;

a foot board (28), one side of the sliding rack (24) is connected with the foot board (28);

the middle of the middle part of the sliding frame (24) is connected with a first connecting rod (26);

the first wedge block (27) is connected to one side of the first connecting rod (26), and the first wedge block (27) is matched with the lower side of the sliding groove (23).

3. A glass quality testing apparatus for intelligent manufacturing according to claim 2, wherein the pressing mechanism (3) comprises:

the second connecting rod (32) is connected with the inside of the upper side of the sliding chute (23);

the second connecting rod (32) is connected with the knocking rod (31) in a sliding manner;

the second spring (33) is connected between the knocking rod (31) and the sliding groove (23), and the second spring (33) is sleeved on the second connecting rod (32);

the upper side of the second support frame (22) is connected with a first fixing rod (34);

a third connecting rod (35), wherein one side of the upper part of the first fixing rod (34) is connected with the third connecting rod (35) in a sliding way;

one side of the third connecting rod (35) is connected with a second wedge-shaped block (37), and the second wedge-shaped block (37) is matched with the rapping rod (31);

a third spring (36) is connected between the second wedge-shaped block (37) and the first fixing rod (34), and the third spring (36) is sleeved on the third connecting rod (35);

a second fixed rod (38), wherein the middle part of one side of the upper part of the sliding frame (24) is connected with the second fixed rod (38);

wedge pole (39), second fixed link (38) upper portion one side is connected with wedge pole (39), and wedge pole (39) and third connecting rod (35) mutually support.

4. A glass quality detection apparatus for intelligent manufacturing according to claim 3, further comprising a clamping assembly (4), the clamping assembly (4) comprising:

a fourth connecting rod (41), wherein one side of the upper part of the sliding frame (24) is symmetrically connected with the fourth connecting rod (41);

a fifth connecting rod (43), wherein one side of the connecting frame (29) is internally connected with the fifth connecting rod (43);

the first sliding strip (42) is connected with the fifth connecting rod (43) in a sliding manner, the first sliding strip (42) is connected with the upper part of the first supporting frame (21) in a sliding manner, and the first sliding strip (42) is matched with the fourth connecting rod (41);

a fourth spring (44), wherein the fourth spring (44) is connected between one side of the first slide bar (42) and the connecting frame (29), and the fourth spring (44) is sleeved on the fifth connecting rod (43);

a second sliding strip (45), wherein one side of the upper part of the first support frame (21) is connected with the second sliding strip (45) in a sliding way;

a fifth spring (48), wherein the fifth spring (48) is connected between one side of the second slide bar (45) and the first support frame (21);

a connecting line (47), wherein the connecting line (47) is connected between one side of one part of the first slide bar (42) and one side of one part of the second slide bar (45);

the winding block (46), one side of the upper part of the first supporting frame (21) is connected with the winding block (46), and the connecting wire (47) bypasses the winding block (46).

5. The glass quality detection device for intelligent manufacturing according to claim 4, further comprising a pushing assembly (5), wherein the pushing assembly (5) comprises:

a third fixing rod (51), wherein one side of the upper part of the first support frame (21) is connected with the third fixing rod (51);

the middle part of the third fixing rod (51) is connected with a sixth connecting rod (52) in a sliding way;

a sixth spring (53), wherein the sixth spring (53) is connected between one part of the sixth connecting rod (52) and the third fixing rod (51), and the sixth spring (53) is sleeved on the sixth connecting rod (52);

the middle part of one side of the fourth connecting rod (41) on one side of the first connecting block (54) is connected with the first connecting block (54);

a seventh connecting rod (55), wherein one side of the upper part of the first support frame (21) is connected with the seventh connecting rod (55) in a sliding way;

an eighth connecting rod (56) is connected to one side of the seventh connecting rod (55) in a sliding mode, and the eighth connecting rod (56) is matched with the first connecting block (54);

a seventh spring (57), a seventh spring (57) is connected between the eighth connecting rod (56) and the seventh connecting rod (55), and the seventh spring (57) is sleeved on the eighth connecting rod (56);

one side of the seventh connecting rod (55) is connected with a third wedge block (58), and the third wedge block (58) is matched with the sixth connecting rod (52);

and an eighth spring (59) is connected between the third wedge block (58) and the first support frame (21), and the eighth spring (59) is sleeved on the seventh connecting rod (55).

6. A glass quality detection apparatus for intelligent manufacturing as claimed in claim 5, further comprising a collection assembly (6), the collection assembly (6) comprising:

the collecting groove (61) is connected between the two sides of the upper part of the first support frame (21) in a sliding manner;

a ninth spring (63), wherein the upper side of the collecting groove (61) is connected with the ninth spring (63);

the upper side of the ninth spring (63) is connected with the second connecting block (62);

handle (64), second connecting block (62) and first support frame (21) are mutually supported, and collecting vat (61) one side middle part is connected with handle (64).

7. A glass quality testing apparatus for intelligent manufacturing according to claim 6, further comprising a buffer member (7), wherein the buffer member (7) is provided on the upper side of the first support frame (21).

8. A glass quality testing apparatus for intelligent manufacturing according to claim 7, wherein the buffer unit (7) comprises:

the frame (71) is connected to one side of the upper part of the first support frame (21);

the ninth connecting rod (72) is connected with both sides of the lower part of the frame (71) in a sliding way;

the inclined plate (74) is connected between the upper sides of the ninth connecting rods (72);

tenth spring (73), tenth spring (73) are connected with between swash plate (74) and frame (71) symmetry, and tenth spring (73) cover is on ninth connecting rod (72).