CN115283103A

CN115283103A - Be applied to broken milling equipment that useless glass fiber retrieved

Info

Publication number: CN115283103A
Application number: CN202210813621.6A
Authority: CN
Inventors: 桂街香; 倪雄枫
Original assignee: Jiangxi Tianlang Non Metallic New Materials Co ltd
Current assignee: Jiangxi Tianlang Non Metallic New Materials Co ltd
Priority date: 2022-07-12
Filing date: 2022-07-12
Publication date: 2022-11-04
Anticipated expiration: 2042-07-12
Also published as: CN115283103B

Abstract

The invention relates to a crushing and grinding device, in particular to a crushing and grinding device applied to waste glass fiber recovery. The utility model provides a can make broken and two actions of crocus go on simultaneously to easy operation's broken milling equipment of being applied to useless glass fiber recovery is provided. A crushing and grinding device applied to waste glass fiber recovery comprises a supporting base, a crushing bin, a grinding bin, a feeding hopper, a crushing mechanism and the like; support the base middle part and be connected with the crocus storehouse, crocus storehouse upside and broken storehouse downside are connected, and broken storehouse top is connected with the feeder hopper that is used for the feeding, is equipped with the broken mechanism that is used for broken useless glass fiber on the broken storehouse. According to the invention, through the cooperation between the motor and the first transmission assembly, two actions of crushing and grinding waste glass fibers can be simultaneously carried out, so that the speed of recovering the crushed and ground waste glass fibers is increased.

Description

Be applied to broken milling equipment that useless glass fiber retrieved

Technical Field

The invention relates to a crushing and grinding device, in particular to a crushing and grinding device applied to waste glass fiber recovery.

Background

The glass fiber is an inorganic non-metallic material with excellent performance, good insulation property, strong heat resistance, good corrosion resistance and high mechanical strength, but the glass fiber is brittle and has poor wear resistance. Therefore, in the process of processing glass fiber, a lot of waste materials are often generated, and in order to save raw materials, the waste glass fiber needs to be crushed, ground and recycled.

Application publication No. CN103071574A is a method for preparing glass fiber powder, first, put the useless glass fiber into the pulverizer, then open the pulverizer, make the blade on the pulverizer will break into 5-7cm long glass fiber, after useless glass fiber breaks, close the pulverizer, then take out and dry the useless glass fiber after breaking, utilize Raymond mill to break into powder with the useless glass fiber after breaking after drying, collect at last, but use this operating method, need use the pulverizer to break into 5-7cm long glass fiber with useless glass fiber first, then use Raymond mill long glass fiber to break into powder, thus it is cumbersome to operate, and the operating speed is slow, need to consume a lot of manpowers, and then influence people's work efficiency, therefore, now, a can make two actions of breaking and crocus go on simultaneously, and easy operation's the broken milling equipment that applies to useless glass fiber recovery.

Disclosure of Invention

In order to overcome the defects that the operation is complicated and the operation speed is low because the waste glass fibers are crushed by a crusher and then crushed into powder by a Raymond mill, the invention aims to provide the crushing and grinding device which can simultaneously perform two actions of crushing and grinding and is simple to operate and applied to waste glass fiber recovery.

The technical scheme is as follows: the utility model provides a be applied to broken milling equipment that useless glass fiber retrieved, including:

the top of the supporting base is connected with a crushing bin;

the middle part of the supporting base is connected with a grinding bin, and the upper side of the grinding bin is connected with the lower side of the crushing bin;

the top of the crushing bin is connected with a feeding hopper for feeding;

the crushing bin is provided with a crushing mechanism for crushing waste glass fibers;

the milling mechanism is provided with a milling mechanism which can mill the waste glass fiber into powder.

As an improvement of the above scheme, the method further comprises the following steps:

the observation window is connected with the front side of the lower part of the crushing bin in a rotating way.

As an improvement of the scheme, the crushing mechanism comprises:

the middle of the rear side of the crushing bin is connected with a motor;

the front side of an output shaft of the motor is connected with a first rotating shaft capable of rotating, and the first rotating shaft penetrates into the crushing bin;

the front part of the first rotating shaft is connected with a first support frame;

and the first support frame is connected with five shearing knives capable of shearing the waste glass fibers along the circumferential direction.

As the improvement of the proposal, the powder grinding mechanism comprises:

the second rotating shaft is rotatably connected to the milling bin;

the first transmission assembly is connected between the second rotating shaft and the motor output shaft and can rotate, the first transmission assembly consists of two first transmission wheels and a first belt, the two first transmission wheels are respectively connected to the rear part of the second rotating shaft and the rear part of the motor output shaft, and the first belt is wound between the two first transmission wheels;

the front part of the second rotating shaft is connected with three blades.

As the improvement of the proposal, the device also comprises a pushing mechanism for pushing the waste glass fiber, and the pushing mechanism comprises:

the top of the feed hopper is connected with a second support frame with a supporting function;

the rear part of the second support frame is connected with a sliding frame capable of moving in a sliding manner;

the lower part of the sliding frame is rotatably connected with the left pushing sheet;

the lower part of the sliding frame is rotatably connected with the right pushing sheet;

compression springs are connected between the front side and the rear side of the upper portion of the sliding frame and the second supporting frame, the compression springs have a reset effect, and the sliding frame is sleeved with the compression springs.

As the improvement of above-mentioned scheme, still include the screening mechanism that is used for screening useless glass fiber powder, screening mechanism includes:

the rear upper part of the grinding bin is connected with a third support frame;

the third support frame is rotatably connected with the fan blade with the shaft which can rotate;

the second transmission assembly is connected between the rear part of the fan blade with the shaft and the second rotating shaft and is positioned on the front side of the first transmission assembly, the second transmission assembly consists of two second transmission wheels and a second belt, the two second transmission wheels are respectively connected to the rear part of the second rotating shaft and the rear part of the fan blade with the shaft, and the second belt is wound between the two second transmission wheels;

the front part of the powder grinding bin is connected with an interception net with an interception function.

As an improvement of the above, the apparatus further comprises a synchronizing mechanism for moving the carriage, the synchronizing mechanism comprising:

the front side of the upper part of the crushing bin is rotatably connected with a rotating rod;

the third transmission assembly is connected between the front part of the rotating rod and the front part of the first rotating shaft and consists of two third transmission wheels and a third belt, the two third transmission wheels are respectively connected to the front part of the rotating rod and the front part of the first rotating shaft, and the third belt is wound between the two third transmission wheels;

the third belt on the third transmission assembly is connected with a connecting rod capable of rotating;

the front part of the second support frame is connected with an L-shaped sliding rod in a sliding manner, and the upper part of the L-shaped sliding rod is connected with a sliding frame;

the guide groove plate, L type slide bar downside is connected with the guide groove plate that can remove, and guide groove plate and connecting rod not only rotate but also sliding type connection.

As the improvement of the proposal, the utility model also comprises a scraping mechanism used for scraping the waste glass fiber powder on the interception net, and the scraping mechanism comprises:

the front side of the second rotating shaft is connected with a fourth supporting frame;

the left side and the right side of the fourth supporting frame are connected with scraping frames with a scraping function in a sliding mode;

the tension springs are connected between the left side and the right side of the scraping frame and the rear side of the fourth supporting frame, and the tension springs are sleeved on the scraping frame.

The invention has the following advantages: 1. according to the invention, through the cooperation between the motor and the first transmission assembly, two actions of crushing and grinding waste glass fibers can be simultaneously carried out, so that the speed of recovering the crushed and ground waste glass fibers is increased, the device is simple to operate, and the working efficiency of people can be improved.

2. According to the right pushing piece and the left pushing piece on the sliding frame, the right pushing piece and the left pushing piece can automatically push down the waste glass fibers, so that the waste glass fibers can be fully sheared.

3. According to the scraping frame on the fourth supporting frame, the scraping frame rotates to scrape the waste glass fibers adhered to the intercepting net, so that holes in the intercepting net are prevented from being blocked by the waste glass fibers, and the working efficiency of the intercepting net can be improved.

Drawings

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

Fig. 2 is a cross-sectional view of the present invention.

Fig. 3 is a first perspective view of the crushing mechanism according to the present invention.

Fig. 4 is a perspective view of a second perspective view of the crushing mechanism of the present invention.

Fig. 5 is a first perspective view of the powder grinding mechanism of the present invention.

Fig. 6 is a schematic perspective view of a second perspective view of the powder grinding mechanism of the present invention.

Fig. 7 is a schematic perspective view of the pushing mechanism of the present invention.

Fig. 8 is a schematic perspective view of the screening mechanism of the present invention.

Fig. 9 is a schematic perspective view of a part of the screening mechanism of the present invention.

Fig. 10 is a schematic perspective view of the synchronization mechanism of the present invention.

Fig. 11 is a schematic perspective view of a part of the synchronization mechanism of the present invention.

Fig. 12 is a perspective view of the scraping mechanism of the present invention.

Fig. 13 is an enlarged view of the scraping mechanism a of the present invention.

Number designation in the figure: 1. the device comprises a supporting base, 2, a crushing bin, 21, an observation window, 3, a grinding bin, 4, a feeding hopper, 5, a crushing mechanism, 51, a motor, 52, a first rotating shaft, 53, a first supporting frame, 54, a shearing knife, 6, a grinding mechanism, 61, a first transmission component, 62, a second rotating shaft, 63, a blade, 7, a pushing mechanism, 71, a second supporting frame, 72, a sliding frame, 73, a right pushing sheet, 74, a left pushing sheet, 75, a compression spring, 8, a screening mechanism, 81, a second transmission component, 82, a third supporting frame, 83, a belt shaft, 84, an intercepting net, 9, a synchronizing mechanism, 91, a third transmission component, 92, a connecting rod, 93, a guide groove plate, 94, an L-shaped sliding rod, 95, a rotating rod, 10, a scraping mechanism, 101, a fourth supporting frame, 102, a frame, 103 and a tension spring.

Detailed Description

The above-described scheme is further illustrated below with reference to specific examples. It should be understood that these examples are for illustrative purposes and are not intended to limit the scope of the present application. The conditions used in the examples may be further adjusted according to the conditions of the particular manufacturer, and the conditions not specified are generally the conditions in routine experiments.

Example 1

The utility model provides a be applied to broken milling equipment that useless glass fiber retrieved, as shown in fig. 1 and fig. 2, including supporting base 1, broken storehouse 2, milling storehouse 3, feeder hopper 4, broken mechanism 5 and milling mechanism 6, support the broken storehouse 2 of 1 top fixedly connected with of base, support base 1 and can support broken storehouse 2, support 1 middle part welding of base has milling storehouse 3, milling storehouse 3 upside and 2 downside connections in broken storehouse, 2 tops in broken storehouse are connected with feeder hopper 4, feeder hopper 4 is used for the feeding, be equipped with broken mechanism 5 on broken storehouse 2, be equipped with milling mechanism 6 on milling storehouse 3.

As shown in fig. 1, the crushing bin also comprises an observation window 21, the front side of the lower part of the crushing bin 2 is rotatably connected with the observation window 21, and the observation window 21 is convenient for people to observe the crushing condition in the crushing bin 2.

As shown in fig. 1, 2, 3 and 4, the crushing mechanism 5 includes a motor 51, a first rotating shaft 52, a first support frame 53 and a shearing knife 54, the motor 51 is connected to the middle of the rear side of the crushing bin 2 through a bolt, the first rotating shaft 52 is connected to the front side of the output shaft of the motor 51 through a coupling, the first rotating shaft 52 penetrates through the crushing bin 2, the motor 51 can enable the first rotating shaft 52 to rotate, the first support frame 53 is connected to the front portion of the first rotating shaft 52, five shearing knives 54 are welded to the first support frame 53 along the circumferential direction, and the shearing knives 54 can shear the waste glass fibers.

As shown in fig. 1, fig. 2, fig. 5 and fig. 6, the powder grinding mechanism 6 includes a first transmission assembly 61, a second rotating shaft 62 and a blade 63, the powder grinding bin 3 is connected with the second rotating shaft 62 in a rotating manner, the first transmission assembly 61 is connected between the second rotating shaft 62 and the output shaft of the motor 51, the first transmission assembly 61 is composed of two first transmission wheels and a first belt, the two first transmission wheels are respectively connected to the rear part of the second rotating shaft 62 and the rear part of the output shaft of the motor 51, the first belt is wound between the two first transmission wheels, the motor 51 can enable the first transmission assembly 61 to rotate, the front part of the second rotating shaft 62 is welded with three blades 63, and the blades 63 can grind the waste glass fibers into powder.

When people need retrieve the broken crocus of useless glass fiber, can use this device to operate, at first put into feeder hopper 4 useless glass fiber, subsequently, open motor 51, make motor 51 output shaft carry out anticlockwise rotation, then drive first pivot 52 and cut sword 54 and carry out anticlockwise rotation, then, cut sword 54 and can cut useless glass fiber, so can be broken useless glass fiber, thereby be convenient for later stage crocus, subsequently, useless glass fiber after the breakage will slide into in the crocus storehouse 3, and simultaneously, when motor 51 output shaft carries out anticlockwise rotation, also can drive first transmission assembly 61 and carry out anticlockwise rotation, then drive second pivot 62 and blade 63 and carry out anticlockwise rotation, therefore, blade 63 can grind the useless glass fiber after the breakage into powder, and blade 63 is provided with threely, thereby improve the fineness of powder, after useless glass fiber grinds into the powder, people can use the instrument to take out useless glass fiber powder from the front side of crocus storehouse 3, after useless glass fiber collects finishing, close motor 51, make motor 51 stop to cut, make people's pivot 52 and the rotation of second pivot 54 and can carry out the simple operation of the grinding operation and the grinding operation of this, and the operation of the grinding more than the second pivot 61 and the simple recovery of the grinding.

Example 2

Based on embodiment 1, as shown in fig. 1, 2, and 7, the pushing device 7 further includes a pushing mechanism 7, the pushing mechanism 7 includes a second support frame 71, a sliding frame 72, a right pushing piece 73, a left pushing piece 74, and a compression spring 75, the top of the feeding hopper 4 is connected to the second support frame 71 through a bolt, the sliding frame 72 is connected to the rear portion of the second support frame 71 in a sliding manner, the left pushing piece 74 is rotatably connected to the lower portion of the sliding frame 72, the right pushing piece 73 is rotatably connected to the lower portion of the sliding frame 72, the sliding frame 72 can enable the left pushing piece 74 and the right pushing piece 73 to move, the compression springs 75 are connected between the front and rear sides of the upper portion of the sliding frame 72 and the second support frame 71, the compression springs 75 are all sleeved on the sliding frame 72, and the compression springs 75 can reset the sliding frame 72.

Since the waste glass fibers are light in volume, the waste glass fibers in the feeding hopper 4 cannot be completely sheared, and the feeding hopper 4 is easily blocked and needs to be pushed downwards, the pushing mechanism 7 can be used for operation, firstly, the sliding frame 72 is manually pressed downwards, then, the right pushing piece 73 and the left pushing piece 74 are enabled to move downwards, and then, the compression spring 75 is compressed, at this time, the right pushing piece 73 and the left pushing piece 74 can push the waste glass fibers downwards, in the process that the right pushing piece 73 and the left pushing piece 74 push the waste glass fibers, the right pushing piece 73 and the left pushing piece 74 can be rotated and unfolded, in this way, the waste glass fibers can be pushed downwards, so that the waste glass fibers can be fully sheared, when people do not need to push the waste glass fibers, the sliding frame 72 is released, the sliding frame 72 can move upwards to reset under the action of the compression spring 75, then, the right pushing piece 73 and the left pushing piece 74 move upwards to reset, and the waste glass fibers can be repeatedly pushed downwards, so that the waste glass fibers can be completely sheared, and the feeding hopper 4 cannot be blocked.

As shown in fig. 2, fig. 8 and fig. 9, the powder grinding device further includes a screening mechanism 8, the screening mechanism 8 includes a second transmission assembly 81, a third support frame 82, a fan blade with a shaft 83 and an interception net 84, the third support frame 82 is welded on the upper rear portion of the powder grinding bin 3, the fan blade with a shaft 83 is rotatably connected to the third support frame 82, the fan blade with a shaft 83 can blow powder forward, the second transmission assembly 81 is connected between the rear portion of the fan blade with a shaft 83 and the second rotating shaft 62, the second transmission assembly 81 is located on the front side of the first transmission assembly 61, the second transmission assembly 81 is composed of two second transmission wheels and a second belt, the two second transmission wheels are respectively connected to the rear portion of the second rotating shaft 62 and the rear portion of the fan blade with a shaft 83, the second belt is wound between the two second transmission wheels, the second transmission assembly 81 can enable the fan blade with a shaft 83 to rotate, the interception net 84 is fixedly connected to the front portion of the powder grinding bin 3, and the interception net 84 can intercept large-particle powder.

The collected waste glass fiber powder has uneven fineness due to the fact that the waste glass fiber powder contains larger particles after being ground into powder, the screening mechanism 8 can be used for operation, when the second rotating shaft 62 drives the second transmission component 81 to rotate anticlockwise, the fan blade 83 with the shaft can also rotate anticlockwise, then the waste glass fiber powder is blown forwards, at the moment, the waste glass fiber with smaller particles can float forwards through the intercepting net 84, the waste glass fiber with larger particles can be intercepted by the intercepting net 84 and continuously ground into fine particles, therefore, the waste glass fiber with larger particles can not be collected by people and can be continuously ground into fine particles, the fineness of the waste glass fiber powder collected by people is enabled to be uniform, after the second rotating shaft 62 stops rotating, the second transmission component 81 and the fan blade 83 with the shaft can also stop rotating, the operations are repeated, the intercepting net 84 can intercept the waste glass fiber with larger particles, the waste glass fiber powder with larger particles is prevented from being collected by people, and the waste glass fiber powder collected by people can be made to be fine powder.

As shown in fig. 1, 2, 10 and 11, the crushing device further includes a synchronizing mechanism 9, the synchronizing mechanism 9 includes a third transmission assembly 91, a connecting rod 92, a guide groove plate 93, an L-shaped sliding rod 94 and a rotating rod 95, the rotating rod 95 is rotatably connected to the front side of the upper portion of the crushing bin 2, the third transmission assembly 91 is connected between the front portion of the rotating rod 95 and the front portion of the first rotating shaft 52, the third transmission assembly 91 is composed of two third transmission wheels and a third belt, the two third transmission wheels are respectively connected to the front portion of the rotating rod 95 and the front portion of the first rotating shaft 52, the third belt is wound between the two third transmission wheels, the connecting rod 92 is connected to the third belt on the third transmission assembly 91, the third transmission assembly 91 can rotate the connecting rod 92, the front portion of the second supporting frame 71 is connected to the L-shaped sliding rod 94, the upper portion of the L-shaped sliding rod 94 is connected to the carriage 72, the L-shaped sliding rod 94 can move the carriage 72, the guide groove plate 93 is fixedly connected to the lower side of the L-shaped sliding rod 94, the guide groove plate 93 and the connecting rod 92 can both rotatably and slidably connect the guide groove plate 93.

When the waste glass fibers are crushed and milled, people still need to manually push down the waste glass fibers, and therefore a large amount of manpower is consumed, therefore, the synchronizing mechanism 9 can be used for operation, when the first rotating shaft 52 drives the third transmission assembly 91 to rotate, the third transmission assembly 91 also drives the connecting rod 92 to rotate, then the guide groove plate 93 continuously moves up and down, and further the L-shaped sliding rod 94 and the sliding frame 72 continuously move up and down, therefore, the sliding frame 72 can automatically move up and down, the workload of people is reduced, manpower can be saved, when the first rotating shaft 52 stops rotating the third transmission assembly 91, the connecting rod 92 also stops rotating, then the guide groove plate 93, the L-shaped sliding rod 94 and the sliding frame 72 stop moving, the operations are repeated, so that the sliding frame 72 can automatically push the waste glass fibers, manual pushing by people is not needed, the labor force of people is reduced, and the labor cost is reduced.

As shown in fig. 2, fig. 12 and fig. 13, the glass fiber collecting device further includes a scraping mechanism 10, the scraping mechanism 10 includes a fourth supporting frame 101, a scraping frame 102 and a tension spring 103, the fourth supporting frame 101 is fixedly connected to the front side of the second rotating shaft 62, the scraping frame 102 is slidably connected to the left and right sides of the fourth supporting frame 101, the scraping frame 102 can scrape the waste glass fibers adhered to the intercepting net 84, the tension spring 103 is connected between the left and right sides of the scraping frame 102 and the rear side of the fourth supporting frame 101, the tension spring 103 is sleeved on the scraping frame 102, and the tension spring 103 can reset the scraping frame 102.

When the waste glass fiber powder is blown to the intercepting screen 84, some of the waste glass fiber powder may adhere to the intercepting screen 84, so that the holes of the intercepting screen 84 are blocked, so that the scraping mechanism 10 may be used to scrape off the waste glass fiber powder adhering to the intercepting screen 84, when the second rotating shaft 62 rotates, the fourth supporting frame 101 may also rotate, and then the scraping frame 102 and the tension spring 103 may be driven to rotate, when the scraping frame 102 rotates and contacts the intercepting screen 84, the scraping frame 102 may move backwards, and then the tension spring 103 may be compressed, when the scraping frame 102 rotates and the intercepting screen 84 is separated, under the action of the tension spring 103, the scraping frame 102 may move forwards, so that the scraping frame 102 may scrape off the waste glass fiber powder adhering to the intercepting screen 84, so that the holes of the intercepting screen 84 may not be blocked, and when the second rotating shaft 62 stops rotating, the fourth supporting frame 101, the scraping frame 102 and the tension spring 103 may also stop rotating, and the above operations may be repeated, so that the scraping frame 102 may scrape off the waste glass fiber powder adhering to the intercepting screen 84, and the holes 84, and thus the blocking of the holes 84 may not occur, thereby increasing the efficiency of the operation of the intercepting screen 84.

The above-mentioned embodiments only express the preferred embodiments of the present invention, and the description thereof is specific and detailed, but not to be understood as the limitation of the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent should be subject to the appended claims.

Claims

1. The utility model provides a be applied to broken milling equipment that useless glass fiber retrieved which characterized in that: comprises the following steps:

the device comprises a supporting base (1) and a crushing bin (2), wherein the top of the supporting base (1) is connected with the crushing bin (2);

the middle part of the supporting base (1) is connected with a grinding bin (3), and the upper side of the grinding bin (3) is connected with the lower side of the crushing bin (2);

the top of the crushing bin (2) is connected with a feed hopper (4) for feeding;

the crushing bin (2) is provided with a crushing mechanism (5) for crushing waste glass fibers;

the milling mechanism (6) is arranged on the milling bin (3), and the milling mechanism (6) can mill the waste glass fibers into powder.

2. A crushing mill apparatus for recycling waste glass fiber according to claim 1, wherein: also includes:

an observation window (21), wherein the front side of the lower part of the crushing bin (2) is rotatably connected with the observation window (21).

3. A crushing and pulverizing apparatus as claimed in claim 2, which is applied to the recovery of waste glass fiber, characterized in that: the crushing mechanism (5) comprises:

the motor (51) is connected in the middle of the rear side of the crushing bin (2);

the front side of an output shaft of the motor (51) is connected with a first rotating shaft (52) capable of rotating, and the first rotating shaft (52) penetrates into the crushing bin (2);

the front part of the first rotating shaft (52) is connected with the first support frame (53);

and the first supporting frame (53) is connected with five shearing knives (54) capable of shearing the waste glass fibers along the circumferential direction.

4. A crushing and pulverizing apparatus as claimed in claim 3, wherein: the powder grinding mechanism (6) comprises:

the second rotating shaft (62) is rotatably connected to the milling bin (3);

the first transmission assembly (61) capable of rotating is connected between the second rotating shaft (62) and the output shaft of the motor (51), the first transmission assembly (61) consists of two first transmission wheels and a first belt, the two first transmission wheels are respectively connected to the rear part of the second rotating shaft (62) and the rear part of the output shaft of the motor (51), and the first belt is wound between the two first transmission wheels;

the front part of the blade (63) and the second rotating shaft (62) are connected with three blades (63).

5. A crushing mill apparatus for recycling waste glass fiber according to claim 4, wherein: still include push mechanism (7) that is used for promoting useless glass fiber, push mechanism (7) including:

the top of the feed hopper (4) is connected with a second support frame (71) with a supporting function;

a sliding frame (72), wherein the rear part of the second support frame (71) is connected with the sliding frame (72) capable of moving in a sliding way;

the lower part of the sliding frame (72) is rotatably connected with the left pushing sheet (74);

a right pushing sheet (73), the lower part of the sliding frame (72) is connected with the right pushing sheet (73) in a rotating way;

compression spring (75) that have the reset action are all connected with between compression spring (75), both sides and second support frame (71) around carriage (72) upper portion, and compression spring (75) all overlaps on carriage (72).

6. A crushing and grinding apparatus for recycling waste glass fiber as claimed in claim 5, wherein: still including screening mechanism (8) that are used for screening useless glass fiber powder, screening mechanism (8) including:

the rear upper part of the powder grinding bin (3) is connected with a third support frame (82);

the third supporting frame (82) is rotatably connected with the fan blade (83) with the shaft, and the fan blade (83) with the shaft can rotate;

a second transmission assembly (81) is connected between the rear part of the fan blade (83) with the shaft and the second rotating shaft (62), the second transmission assembly (81) is positioned on the front side of the first transmission assembly (61), the second transmission assembly (81) consists of two second transmission wheels and a second belt, the two second transmission wheels are respectively connected to the rear part of the second rotating shaft (62) and the rear part of the fan blade (83) with the shaft, and the second belt is wound between the two second transmission wheels;

the front part of the powder grinding bin (3) is connected with an interception net (84) with an interception function.

7. A crushing mill apparatus for recycling waste glass fiber according to claim 6, wherein: also comprises a synchronizing mechanism (9) for moving the sliding frame (72), wherein the synchronizing mechanism (9) comprises:

the rotating rod (95) is rotatably connected to the front side of the upper part of the crushing bin (2);

the third transmission assembly (91) is connected between the front part of the rotating rod (95) and the front part of the first rotating shaft (52), the third transmission assembly (91) consists of two third transmission wheels and a third belt, the two third transmission wheels are respectively connected to the front part of the rotating rod (95) and the front part of the first rotating shaft (52), and the third belt is wound between the two third transmission wheels;

the connecting rod (92) is connected to a third belt on the third transmission assembly (91) and can rotate;

the front part of the second support frame (71) is connected with an L-shaped sliding rod (94) in a sliding manner, and the upper part of the L-shaped sliding rod (94) is connected with the sliding frame (72);

the lower side of the L-shaped sliding rod (94) is connected with the guide groove plate (93) which can move, and the guide groove plate (93) and the connecting rod (92) are connected in a rotating and sliding way.

8. A crushing and pulverizing apparatus as claimed in claim 7, wherein: still including scraping mechanism (10) that is used for scraping off useless glass fiber powder on intercepting net (84), scraping mechanism (10) including:

the front side of the second rotating shaft (62) is connected with a fourth supporting frame (101);

the left side and the right side of the fourth supporting frame (101) are both connected with the scraping frame (102) with a scraping function in a sliding manner;

the tension spring (103) with the reset function is connected between the left side and the right side of the scraping frame (102) and the rear side of the fourth supporting frame (101), and the tension spring (103) is sleeved on the scraping frame (102).