CN215388855U - Proportioning device is used in glass fiber production - Google Patents

Abstract

The utility model discloses a batching device for glass fiber production, which comprises a device body, wherein a trough is arranged in the device body, a fixing frame is arranged at the top of the device body, a motor is arranged at the bottom of the fixing frame, and a rotating rod is arranged at one end of the motor. This dosing unit is used in glass fiber production is through setting up the fixed block, the head rod, stock guide and first spread groove, make the inclination of stock guide can adjust, the connecting block has been set up, the sliding block, the supporting shoe, second connecting rod and second spread groove, through sliding connection between sliding block and the slide groove, drive sliding block vertical migration by the telescopic link, thereby it rotates the angle of adjusting between supporting shoe and the stock guide to drive the supporting shoe, the vertical height of change stock guide one side, the size of silo between the inclination of artificial adjustment stock guide and the stock guide, with the purpose that reaches control feed rate, guarantee feed rate and production speed phase-match, reduce the loss of material when improving production efficiency.

Description

Proportioning device is used in glass fiber production

Technical Field

The utility model relates to the technical field of glass fiber production devices, in particular to a batching device for glass fiber production.

Background

The glass fiber is an inorganic non-metallic material with excellent performance, has various types, and has the advantages of good insulativity, strong heat resistance, good corrosion resistance, high mechanical strength and poor wear resistance.

The prior art has the following defects or problems:

1. most of the existing batching devices can not artificially control the feeding speed, thus affecting the production efficiency and causing machine damage and material waste;

2. the glass fiber can be interwoven into a cluster and fall off in the feeding process, the glass fiber can block a production machine unevenly when entering the production machine, and the quality of a product can be influenced.

Disclosure of Invention

The utility model aims to provide a batching device for glass fiber production aiming at the defects of the prior art so as to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: a batching device for glass fiber production comprises a device body, wherein a trough is arranged in the device body, a fixing frame is arranged at the top of the device body, a motor is arranged at the bottom of the fixing frame, a rotating rod is arranged at one end of the motor, a limiting block is arranged at the end, away from the motor, of the rotating rod, a rotating disc is arranged at the end, close to the limiting block, of the rotating rod, a rotating groove is arranged on the rotating disc in a penetrating manner, stirring blades are arranged at two sides of the rotating disc, component grooves are arranged at two sides of the rotating groove, a reset spring is arranged in each component groove, a positioning block is arranged at one end of the reset spring, fixed blocks are arranged at two sides of the trough, a material guide plate is arranged at one side of each fixed block, a connecting block is arranged at one side of the connecting block, a sliding block is arranged at the end, away from the connecting block, and a telescopic rod is arranged on one side of the sliding block.

As a preferred technical scheme, two ends of the rotating rod are respectively welded with the motor and the limiting block, the inner diameter of the rotating groove is matched with the outer diameter of the rotating rod, the rotating rod is movably connected with the rotating disc, the limiting grooves are formed in two sides of the rotating groove, the inner diameter of the limiting groove is matched with the outer diameter of the limiting block, the limiting block is clamped with the limiting groove, the rotating disc is clamped with the rotating rod through the limiting block, and the rotating disc is rotatably connected with the motor through the rotating rod.

As a preferred technical scheme, two ends of the reset spring are respectively welded with the component groove and the positioning block, the positioning block is movably connected with the component groove through the reset spring, positioning grooves are formed in two sides, close to the component groove, of the rotating rod, the inner diameter size of each positioning groove is matched with the outer diameter size of the corresponding positioning block, the positioning blocks are clamped with the positioning grooves, the rotating disk is clamped with the rotating rod through the positioning blocks, and the positioning blocks are clamped with the positioning grooves when the reset spring is in a natural state.

As a preferable technical scheme of the present invention, a displacement groove is penetratingly provided at one side of the component groove, a displacement block is provided at one side of the positioning block close to the displacement groove, an outer diameter of the displacement block is matched with an outer diameter of the displacement groove, and the displacement block is slidably connected with the displacement groove.

As a preferable technical scheme of the utility model, a first connecting rod is arranged between the fixed blocks, a first connecting groove is arranged on one side of the guide plate close to the fixed blocks in a penetrating manner, the outer diameter of the first connecting rod is matched with the inner diameter of the first connecting groove, the first connecting rod is movably connected with the first connecting groove, and the guide plate is rotatably connected with the device body through the first connecting rod.

As a preferred technical scheme of the utility model, second connecting grooves are arranged at two ends of the supporting block in a penetrating manner, second connecting rods are arranged between the connecting blocks, a second connecting rod is arranged at one side of the sliding block, the outer diameter size of the second connecting rod is matched with the inner diameter size of the second connecting groove, the second connecting rod is movably connected with the second connecting groove, the supporting block is rotatably connected with the material guide plate through the second connecting rod, the supporting block is rotatably connected with the sliding block through the second connecting rod, and the sliding block is movably connected with the telescopic rod.

As a preferable technical scheme of the utility model, sliding grooves are arranged on two sides of the trough close to the sliding block, the inner diameter size of each sliding groove is matched with the outer diameter size of the corresponding sliding block, and the sliding blocks are in sliding connection with the sliding grooves.

As a preferred technical scheme of the utility model, one side of the top of the device body is provided with a feeding groove, and the bottom of the device body is provided with an installation groove.

Compared with the prior art, the utility model provides a batching device for glass fiber production, which has the following beneficial effects:

1. the batching device for glass fiber production is characterized in that a fixing block, a first connecting rod, a material guide plate and a first connecting groove are arranged, the inclination angle of the material guide plate can be adjusted through the movable connection between the first connecting rod and the first connecting groove, a connecting block, a sliding block, a supporting block, a second connecting rod, a second connecting groove and a telescopic rod are arranged, the vertical height of one side of the material guide plate can be changed through the movable connection between the second connecting rod and the second connecting groove in cooperation with the sliding connection between the upper sliding block and the sliding groove, the sliding block is driven to vertically move through the telescopic rod, so that the supporting block is driven to rotate to adjust the angle between the supporting block and the material guide plate, the inclination angle of the material guide plate and the size of a trough between the material guide plates can be manually adjusted, the purpose of controlling the feeding speed is achieved, and the feeding speed is guaranteed to be matched with the production speed, the production efficiency is improved, and the material loss is reduced;

2. the batching device for glass fiber production is provided with a rotating rod, a limiting block, a rotary disk, a rotating groove and a limiting groove, wherein the rotating groove is movably connected with the rotating rod, and the limiting block is clamped with the limiting groove, so that the rotary disk can be conveniently installed on the rotating rod, the electric motor is matched to drive a stirring blade to rotate together, the glass fiber in a trough is cut and hit, the glass fiber is prevented from being interwoven into a group, the phenomenon that materials enter a production device unevenly to affect the product quality is avoided, a component groove, a reset spring, a positioning block and a positioning groove are arranged, the positioning block is movably connected with the reset spring, and the positioning block is clamped with the positioning groove, so that the position stability of the rotary disk is ensured, the rotary disk is prevented from slipping off from the rotating rod under the influence of external force, the stirring blade can normally work, the positioning block and the shifting groove are matched, the rotary disk can be easily disassembled from the rotating rod, the maintenance and the replacement of the stirring blades are convenient.

Drawings

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

FIG. 2 is a schematic view of a fixing block connection structure according to the present invention;

FIG. 3 is a schematic view of the slider connection structure of the present invention;

FIG. 4 is a schematic view of the turntable structure of the present invention;

FIG. 5 is a schematic view of a rotating rod according to the present invention;

FIG. 6 is a schematic view of the component groove structure of the present invention.

In the figure: 1. a device body; 2. a trough; 3. a fixed mount; 4. a motor; 5. rotating the rod; 6. a limiting block; 7. a turntable; 8. a rotating groove; 9. a limiting groove; 10. a stirring blade; 11. a component slot; 12. a return spring; 13. positioning blocks; 14. a shift block; 15. a shifting groove; 16. positioning a groove; 17. a fixed block; 18. a first connecting rod; 19. a material guide plate; 20. a first connecting groove; 21. connecting blocks; 22. a support block; 23. a slider; 24. a telescopic rod; 25. a second connecting rod; 26. a second connecting groove; 27. a sliding groove; 28. a feed chute; 29. and (4) mounting the groove.

Detailed Description

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

Referring to fig. 1-6, in the present embodiment: a batching device for glass fiber production comprises a device body 1, wherein a trough 2 is arranged in the device body 1, a fixed frame 3 is arranged at the top of the device body 1, a motor 4 is arranged at the bottom of the fixed frame 3, a rotating rod 5 is arranged at one end of the motor 4, a limiting block 6 is arranged at one end of the rotating rod 5 far away from the motor 4, a rotating disk 7 is arranged at one end of the rotating rod 5 close to the limiting block 6, a rotating groove 8 is arranged on the rotating disk 7 in a penetrating manner, stirring blades 10 are arranged at two sides of the rotating disk 7, component grooves 11 are arranged at two sides of the rotating groove 8, a return spring 12 is arranged in the component grooves 11, a positioning block 13 is arranged at one end of the return spring 12, fixed blocks 17 are arranged at two sides of the trough 2, a guide plate 19 is arranged at one side of the fixed blocks 17, a connecting block 21 is arranged at the bottom of the guide plate 19, a supporting block 22 is arranged at one side of the connecting block 21, and a sliding block 23 is arranged at one end of the supporting block 22 far away from the connecting block 21, one side of the sliding block 23 is provided with a telescopic rod 24.

In the embodiment, two ends of a rotating rod 5 are respectively welded with a motor 4 and a limiting block 6, the inner diameter size of a rotating groove 8 is matched with the outer diameter size of the rotating rod 5, the rotating rod 5 is movably connected with a rotary table 7, limiting grooves 9 are arranged on two sides of the rotating groove 8, the inner diameter size of the limiting grooves 9 is matched with the outer diameter size of the limiting block 6, the limiting block 6 is clamped with the limiting grooves 9, the rotary table 7 is clamped with the rotating rod 5 through the limiting block 6, the rotary table 7 is rotatably connected with the motor 4 through the rotating rod 5, and the rotation of a stirring blade 10 can be controlled; two ends of a return spring 12 are respectively welded with a component groove 11 and a positioning block 13, the positioning block 13 is movably connected with the component groove 11 through the return spring 12, positioning grooves 16 are arranged on two sides of the rotating rod 5 close to the component groove 11, the inner diameter size of each positioning groove 16 is matched with the outer diameter size of each positioning block 13, the positioning blocks 13 are clamped with the positioning grooves 16, the rotating disk 7 is clamped with the rotating rod 5 through the positioning blocks 13, and the positioning blocks 13 are clamped with the positioning grooves 16 when the return spring 12 is in a natural state, so that the rotating disk 7 is prevented from slipping from the rotating rod 5; a shifting groove 15 is arranged on one side of the component groove 11 in a penetrating manner, a shifting block 14 is arranged on one side of the positioning block 13 close to the shifting groove 15, the outer diameter size of the shifting block 14 is matched with that of the shifting groove 15, and the shifting block 14 is connected with the shifting groove 15 in a sliding manner, so that the clamping connection of the rotary disc 7 and the rotating rod 5 is conveniently controlled; a first connecting rod 18 is arranged between the fixed blocks 17, a first connecting groove 20 is arranged on one side, close to the fixed blocks 17, of the material guide plate 19 in a penetrating mode, the outer diameter size of the first connecting rod 18 is matched with the inner diameter size of the first connecting groove 20, the first connecting rod 18 is movably connected with the first connecting groove 20, and the material guide plate 19 is rotatably connected with the device body 1 through the first connecting rod 18, so that the inclination angle of the material guide plate 19 can be adjusted; two ends of the supporting block 22 are provided with second connecting grooves 26 in a penetrating manner, a second connecting rod 25 is arranged between the connecting blocks 21, one side of the sliding block 23 is provided with a second connecting rod 25, the outer diameter of the second connecting rod 25 is matched with the inner diameter of the second connecting groove 26, the second connecting rod 25 is movably connected with the second connecting groove 26, the supporting block 22 is rotatably connected with the material guide plate 19 through the second connecting rod 25, the supporting block 22 is rotatably connected with the sliding block 23 through the second connecting rod 25, and the sliding block 23 is movably connected with the telescopic rod 24 and can control the inclination angle of the material guide plate 19; the two sides of the trough 2 close to the sliding block 23 are provided with sliding grooves 27, the inner diameter of the sliding groove 27 is matched with the outer diameter of the sliding block 23, and the sliding block 23 is connected with the sliding groove 27 in a sliding manner, so that the moving track of the sliding block 23 is fixed and is not easy to deviate; one side of the top of the device body 1 is provided with a feeding groove 28, and the bottom of the device body 1 is provided with a mounting groove 29, so that the overall stability of the device is ensured, and the material can enter the device conveniently.

The working principle and the using process of the utility model are as follows: before the device is used, the device is installed and fixed through the installation groove 29, the positioning block 13 is controlled to completely move into the component groove 11 through the sliding connection between the shifting block 14 and the shifting groove 15, the positioning block 7 is sleeved on the rotating rod 5 through the movable connection between the rotating groove 8 and the rotating rod 5 and the clamping connection between the limiting block 6 and the limiting groove 9, the shifting block 14 is loosened at the moment, the positioning block 13 is clamped with the positioning groove 16 under the supporting force of the return spring 12 through the movable connection between the positioning block 13 and the return spring 12, the rotating disk 7 is clamped with the rotating rod 5 at the moment, the position is stable, the rotating disk 7 is not easy to slip from the rotating rod 5 by external force, materials are put into the device body 1 through the feeding groove 28, the starting motor 4 drives the rotating rod 5 and the stirring blade 10 to rotate, the glass fibers in the trough 2 are cut and hit, and the non-uniform interlacing of the glass fibers is prevented from entering the production device, avoid influencing product quality, when the speed of material needs to be adjusted, control telescopic link 24 is taken out and put forward drive sliding block 23 vertical migration, sliding connection through between sliding block 23 and sliding tray 27, make the moving track of sliding block 23 fixed, can not take place the skew, through the swing joint between second connecting rod 25 and the second spread groove 26, drive supporting shoe 22 when sliding block 23 removes and rotate, thereby change the angle between supporting shoe 22 and stock guide 19, the swing joint between head rod 18 and the first spread groove 20 on the cooperation, make the silo 2 size between the vertical height of stock guide 19 one side and the stock guide 19 change, thereby realize the control to feed speed, make feed speed and production speed match, machine internal blocking has been avoided, the loss of material has been greatly reduced when improving production efficiency.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the utility model. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a proportioning device is used in glass fiber production which characterized in that: comprises a device body (1), a trough (2) is arranged in the device body (1), a fixing frame (3) is arranged at the top of the device body (1), a motor (4) is arranged at the bottom of the fixing frame (3), a rotating rod (5) is arranged at one end of the motor (4), a limiting block (6) is arranged at one end of the rotating rod (5) far away from the motor (4), a rotating disc (7) is arranged at one end of the rotating rod (5) close to the limiting block (6), a rotating groove (8) is arranged on the rotating disc (7) in a penetrating manner, stirring blades (10) are arranged at two sides of the rotating disc (7), component grooves (11) are arranged at two sides of the rotating groove (8), a reset spring (12) is arranged in the component groove (11), a positioning block (13) is arranged at one end of the reset spring (12), and a fixing block (17) is arranged at two sides of the trough (2), fixed block (17) one side is provided with stock guide (19), stock guide (19) bottom is provided with connecting block (21), connecting block (21) one side is provided with supporting shoe (22), the one end that connecting block (21) were kept away from in supporting shoe (22) is provided with sliding block (23), sliding block (23) one side is provided with telescopic link (24).

2. The batching device for glass fiber production according to claim 1, characterized in that: the both ends of dwang (5) weld with motor (4), stopper (6) respectively, the internal diameter size of rotating groove (8) and the external diameter size phase-match of dwang (5), dwang (5) and carousel (7) swing joint, it is provided with spacing groove (9) to rotate groove (8) both sides, the internal diameter size of spacing groove (9) and the external diameter size phase-match of stopper (6), stopper (6) and spacing groove (9) joint, carousel (7) are through stopper (6) and dwang (5) joint, carousel (7) are rotated with motor (4) through dwang (5) and are connected.

3. The batching device for glass fiber production according to claim 1, characterized in that: the both ends of reset spring (12) weld with part groove (11), locating piece (13) respectively, locating piece (13) are through reset spring (12) and part groove (11) swing joint, the both sides that dwang (5) are close to part groove (11) are provided with constant head tank (16), the internal diameter size of constant head tank (16) and the external diameter size phase-match of locating piece (13), locating piece (13) and constant head tank (16) joint, carousel (7) are through locating piece (13) and dwang (5) joint, locating piece (13) and constant head tank (16) joint when reset spring (12) is in the natural state.

4. The batching device for glass fiber production according to claim 1, characterized in that: the part groove (11) one side is provided with displacement groove (15) in a penetrating way, one side that locating piece (13) is close to displacement groove (15) is provided with displacement piece (14), the external diameter size of displacement piece (14) and the external diameter size phase-match of displacement groove (15), displacement piece (14) and displacement groove (15) sliding connection.

5. The batching device for glass fiber production according to claim 1, characterized in that: be provided with between fixed block (17) head rod (18), one side that stock guide (19) is close to fixed block (17) is run through and is provided with first connecting groove (20), the external diameter size of head rod (18) and the internal diameter size phase-match of first connecting groove (20), head rod (18) and first connecting groove (20) swing joint, stock guide (19) are connected through head rod (18) and device body (1) rotation.

6. The batching device for glass fiber production according to claim 1, characterized in that: the utility model discloses a material guide plate, including supporting shoe (22), connecting block (21), second connecting rod (25), sliding block (23), supporting shoe (22) and stock guide plate (19), supporting shoe (22) are provided with second spread groove (26) through running through at supporting shoe (22) both ends, be provided with second connecting rod (25) between connecting block (21), sliding block (23) one side is provided with second connecting rod (25), the external diameter size of second connecting rod (25) and the internal diameter size phase-match of second spread groove (26), second connecting rod (25) and second spread groove (26) swing joint, supporting shoe (22) are connected through second connecting rod (25) and stock guide plate (19) rotation, supporting shoe (22) are connected through second connecting rod (25) and sliding shoe (23) rotation, sliding block (23) and telescopic link (24) swing joint.

7. The batching device for glass fiber production according to claim 1, characterized in that: the both sides that silo (2) are close to sliding block (23) are provided with sliding tray (27), the internal diameter size of sliding tray (27) and the external diameter size phase-match of sliding tray (23), sliding tray (23) and sliding tray (27) sliding connection.

8. The batching device for glass fiber production according to claim 1, characterized in that: a feeding groove (28) is formed in one side of the top of the device body (1), and a mounting groove (29) is formed in the bottom of the device body (1).

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