CN220861274U - Glass fiber ceramic fiber mixes professional equipment - Google Patents

Abstract

The utility model relates to a special glass fiber and ceramic fiber mixing device, which comprises a homogenizing box, wherein a homogenizing cavity is arranged in the homogenizing box, a high-speed box and a low-speed box are arranged at the top end of the homogenizing box, a homogenizing component is arranged in the homogenizing cavity, a blowing component is arranged in the blowing box, a pushing box is arranged outside the homogenizing cavity, a pushing component is arranged in the pushing box, a discharge hole is arranged in the pushing box, a cleaning tank is arranged at one side of the pushing box, which is far away from the homogenizing box, a cleaning cavity is arranged in the cleaning tank, a rolling component and a connecting plate are arranged at the top end of the cleaning tank, and a compression roller is arranged on the connecting plate.

Description

Glass fiber ceramic fiber mixes professional equipment

Technical Field

The utility model belongs to the technical field of special equipment for mixing, and particularly relates to special equipment for mixing glass fiber and ceramic fiber.

Background

In the new energy industry, there are two schemes for protecting the battery, one is to use a product made of ceramic fiber to protect the battery, and the other is to use glass fiber to protect the battery, but the two products have the advantages and disadvantages, and the best method is to mix the two.

In carrying out the present application, the inventors have found that at least the following problems exist in this technology: at present, glass fibers and ceramic fibers are not good in miscibility, mainly the difference of sedimentation states of the two fibers in water is large, and in order to improve the mixing effect, only special equipment can be developed to temporarily and uniformly mix the two fibers, so that the state of a product is improved; therefore, further improvement can be made.

Disclosure of utility model

Aiming at the problems that the prior glass fiber and ceramic fiber have poor mixability, mainly the two fibers have huge differences in sedimentation state in water, and in order to improve the mixing effect, only special equipment can be developed for temporarily uniformly mixing the two fibers and improving the state of a product, the utility model provides the special equipment for mixing the glass fiber and the ceramic fiber.

The technical scheme adopted for solving the technical problems is as follows:

The utility model provides a glass fiber ceramic fiber mixes professional equipment, includes the homogenate case, be equipped with the homogenate chamber in the homogenate case, the homogenate case top is equipped with the high-speed case of placing glass fiber and the low-speed case of placing ceramic fiber, high-speed case and low-speed incasement portion and homogenate case intercommunication, the homogenate intracavity portion is equipped with the homogenate subassembly to glass fiber and ceramic fiber mixture, the homogenate bottom is equipped with the gas tank, the gas tank inside is equipped with the subassembly of blowing with the homogenate chamber intercommunication, the promotion case has been placed in the homogenate chamber outside, the promotion incasement portion is equipped with the promotion subassembly, one side that promotes the case and is close to the homogenate case is equipped with the discharge gate, one side that promotes the case and keep away from the homogenate case is equipped with the wash tank, wash the inside washing chamber that is equipped with of upwards intercommunication that is equipped with of wash tank top and be located the connecting plate of both sides before the rolling subassembly, be equipped with a plurality of pressing rollers to the thick liquids on the connecting plate, be equipped with the washing subassembly in the wash tank, promote the case, bottom and the supporting legs are all equipped with.

Further, the high-speed tank inside is equipped with the high-speed stirring chamber, the high-speed tank top is equipped with high-speed motor, the high-speed tank inside is equipped with the high-speed pivot that drives pivoted by high-speed motor, the high-speed tank bottom is equipped with the first feed inlet of intercommunication high-speed stirring chamber and homogenate chamber, the high-speed tank top is equipped with the first feed inlet of intercommunication external world and high-speed stirring chamber, the low-speed tank inside is equipped with the low-speed stirring chamber, the low-speed tank top is equipped with low-speed motor, the low-speed tank inside is equipped with the low-speed pivot that drives pivoted by low-speed motor, low-speed tank bottom is equipped with the second feed inlet of intercommunication low-speed stirring chamber and homogenate chamber, low-speed tank top is equipped with the second feed inlet of intercommunication external world and low-speed stirring chamber, all be equipped with the governing valve on first feed inlet and the second feed inlet.

Further, the homogenization subassembly is including setting up the multiunit connecting rod in the inside bottom of homogenization case, and every group connecting rod is provided with two, and corresponds around and place, is equipped with two upper and lower homogenization rollers between two connecting rods, the homogenization roller rotates with the connecting rod to be connected, be equipped with the multiturn strap on the homogenization roller.

Further, the subassembly of blowing is including setting up the cavity of blowing in the inside of blowing box, the inside at least one pump of blowing that is equipped with of blowing box, the inside a plurality of air inlets that are equipped with of homogenate box, the pump of blowing is equipped with the gas blow pipe that communicates air pump and air inlet towards one side of homogenate box, the blowing bottom of the case portion is equipped with a plurality of external and the gas outlet in cavity of blowing of intercommunication.

Further, a cavity is formed in the pushing box, two pushing rods are placed left and right in the cavity, the pushing rods are rotationally connected with the front side wall and the rear side wall of the pushing box, the pushing rods are not arranged on the same horizontal plane, and the discharging port is connected with the pushing box; the discharge openings are communicated with the cavity.

Further, the rolling assembly comprises two rollers arranged on the left side and the right side of the top end of the cleaning tank and one roller arranged at the bottom end inside the cleaning tank, forming mesh belts are arranged on the three rollers in a rolling mode, a plurality of fixing columns are arranged above the connecting plates, and compression rollers arranged above the forming mesh belts are arranged between the fixing columns.

Further, the cleaning assembly comprises a water tank arranged on the outer side of the cleaning tank, a water suction pump is arranged at the top end of the water tank, a channel for containing clean water to pass through is formed in the connecting plate, a plurality of spray heads for spraying towards the downward forming mesh belt are arranged at the bottom of the connecting plate, and a plurality of water outlets communicated with the cleaning cavity are formed in the bottom of the cleaning tank.

The beneficial effects of the utility model are as follows: by adopting the scheme, the glass fiber and ceramic fiber slurry is put into the homogenizer according to a fixed proportion, the homogenizer is in a two-pair roller structure, a plurality of gas ejection ports are arranged at the bottom of the homogenizer, the fibers deposited at the bottom can be blown out again and mixed, the fibers are further mixed, and then the fibers are sent into the pushing box, so that the slurry is ensured to be uniform, and finally the slurry is pumped into the forming mesh belt, so that a good forming effect can be obtained.

Drawings

The foregoing and other objects, features, and advantages of the utility model will become apparent from the following detailed description taken in conjunction with the accompanying drawings.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of a homogenizing assembly of the present utility model;

FIG. 3 is a schematic view of the pushing assembly according to the present utility model.

Wherein: 1. a homogenizing box; 2. a homogenization chamber; 3. a high-speed box; 301. a high-speed stirring cavity; 302. a high-speed motor; 303. a high-speed rotating shaft; 304. a first feed port; 305. a first feed inlet; 4. a low speed case; 401. a low-speed stirring cavity; 402. a low-speed motor; 403. a low-speed rotating shaft; 404. a second feed inlet; 405. a second feed inlet; 5. a homogenizing assembly; 501. a connecting rod; 502. a homogenizing roll; 503. a metal belt; 6. a blow box; 7. an air blowing assembly; 701. an air blowing cavity; 702. an air blowing pump; 703. an air inlet; 704. an air blowing pipe; 705. an air outlet; 8. pushing the box; 9. a pushing assembly; 901. a cavity; 902. pushing the stick; 10. a discharge port; 11. a discharge port; 12. a cleaning pool; 13. cleaning the cavity; 14. a rolling assembly; 1401. a roller; 1402. forming a mesh belt; 1403. fixing the column; 15. a connecting plate; 16. a press roller; 17. cleaning the assembly; 1701. a water tank; 1702. a water pump; 1703. a spray head; 1704. a water outlet; 18. supporting feet; 19. and (3) regulating the valve.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

Example 1 referring to fig. 1, the utility model comprises a homogenizing box 1, wherein a homogenizing cavity 2 is arranged in the homogenizing box 1, a high-speed box 3 for placing glass fibers and a low-speed box 4 for placing ceramic fibers are arranged at the top end of the homogenizing box 1, the interiors of the high-speed box 3 and the low-speed box 4 are communicated with the homogenizing box 1, a high-speed stirring cavity 301 is arranged in the high-speed box 3, a high-speed motor 302 is arranged at the top end of the high-speed box 3, a high-speed rotating shaft 303 driven by the high-speed motor 302 to rotate is arranged in the high-speed box 3, a first feed inlet 304 for communicating the high-speed stirring cavity 301 with the homogenizing cavity 2 is arranged at the bottom of the high-speed box 3, a first feed inlet 305 for communicating the outside with the high-speed stirring cavity 301 is arranged at the top end of the high-speed box 3, a low-speed stirring cavity 401 is arranged in the low-speed box 4, the top of the low-speed box 4 is provided with a low-speed motor 402, a low-speed rotating shaft 403 driven by the low-speed motor 402 to rotate is arranged in the low-speed box 4, the bottom of the low-speed box 4 is provided with a second feed inlet 404 communicated with the low-speed stirring cavity 401 and the homogenizing cavity 2, the top of the low-speed box 4 is provided with a second feed inlet 405 communicated with the outside and the low-speed stirring cavity 401, the first feed inlet 304 and the second feed inlet 404 are respectively provided with a regulating valve 19, glass fibers are firstly placed in the high-speed box 3 for high-power stirring, ceramic fibers are placed in the low-speed box 4 for low-power stirring, and the regulating valves 19 are controlled by an internal controller of the equipment to throw the slurry of the glass fibers and the ceramic fibers into the homogenizer according to a fixed proportion.

Referring to fig. 1-2, a homogenizing component 5 for mixing glass fibers and ceramic fibers is arranged in a homogenizing cavity 2, the homogenizing component 5 comprises a plurality of groups of connecting rods 501 arranged at the bottom end inside a homogenizing box 1, each group of connecting rods 501 is provided with two connecting rods, the two connecting rods are correspondingly placed front and back, two homogenizing rollers 502 are arranged between the two connecting rods 501, the homogenizing rollers 502 are rotationally connected with the connecting rods 501, a plurality of circles of metal belts 503 are arranged on the homogenizing rollers 502, the structure of the homogenizer is a two-pair roller structure, and the metal belts 503 increase the mixing degree of slurry.

Referring to fig. 1, a gas blowing box 6 is arranged at the bottom of a homogenizing box 1, a gas blowing assembly 7 communicated with a homogenizing cavity 2 is arranged in the gas blowing box 6, the gas blowing assembly 7 comprises a gas blowing cavity 701 arranged in the gas blowing box 6, at least one gas blowing pump 702 is arranged in the gas blowing box 6, a plurality of gas inlets 703 are arranged in the homogenizing box 1, a gas blowing pipe 704 communicated with the gas blowing pump 702 and the gas inlets 703 is arranged on one side of the gas blowing pump 702, facing the homogenizing box 1, of the bottom of the gas blowing box 6, a plurality of gas outlets 705 communicated with the outside and the gas blowing cavity 701 are arranged on the bottom of the gas blowing box 6, a plurality of gas inlets 703 are arranged at the bottom of the homogenizer, and fibers deposited at the bottom can be blown out again for mixing, and further mixing is performed on the fibers.

Referring to fig. 1 and 3, a pushing box 8 is placed outside a homogenizing chamber 2, a pushing assembly 9 is arranged inside the pushing box 8, a discharge hole 10 is formed in one side, close to the homogenizing box 1, of the pushing box 8, a discharge hole 11 is formed in one side, far away from the homogenizing box 1, of the pushing box 8, a cavity 901 is formed in the pushing box 8, two pushing rods 902 are placed in the cavity 901 in a left-right mode, the pushing rods 902 are rotationally connected with front and rear side walls of the pushing box 8, the pushing rods 902 are not arranged on the same horizontal plane, and the discharge hole 10 and the discharge hole 11 are communicated with the cavity 901.

Referring to fig. 1, a cleaning tank 12 is arranged on one side of the pushing tank 8 away from the homogenizing tank 1, a cleaning cavity 13 communicated upwards is arranged in the cleaning tank 12, a rolling assembly 14 and connecting plates 15 positioned on the front side and the rear side of the rolling assembly 14 are arranged at the top end of the cleaning tank 12, a plurality of press rolls 16 for extruding slurry are arranged on the connecting plates 15, a cleaning assembly 17 is arranged in the cleaning tank 12, and supporting feet 18 are arranged at the bottoms of the air blowing tank 6, the pushing tank 8 and the cleaning tank 12.

Referring to fig. 1, the rolling assembly 14 includes two rollers 1401 disposed on left and right sides of a top end of the cleaning tank 12, one roller 1401 disposed at a bottom end of the cleaning tank 12, forming mesh belts 1402 are disposed on the three rollers 1401 in a rolling manner, a plurality of fixing columns 1403 are disposed above the connecting plates 15, compression rollers 16 disposed above the forming mesh belts 1402 are disposed between the fixing columns 1403, the three rollers 1401 are triangular in shape toward distribution, and the rollers 1401 below drive the forming mesh belts 1402 below to pull out a certain gap downwards, so that the cleaning assembly 17 is convenient to clean.

Referring to fig. 1, the cleaning unit 17 includes a water tank 1701 disposed outside the cleaning tank 12, a water pump 1702 is disposed at the top end of the water tank 1701, a passage for receiving cleaning water therethrough is provided in the connecting plate 15, a plurality of nozzles 1703 spraying toward the lower forming mesh belt 1402 are provided at the bottom of the connecting plate 15, and a plurality of water outlets 1704 communicating with the cleaning chamber 13 are provided at the bottom of the cleaning tank 12.

Working principle: the method comprises the steps of firstly placing glass fibers in a high-speed box 3, carrying out high-power stirring, placing ceramic fibers in a low-speed box 4, carrying out low-power stirring, after stirring, throwing glass fibers and ceramic fiber slurry into a homogenizing box 1 according to a fixed proportion, fully stirring the slurry through a plurality of groups of homogenizing rollers 502, arranging a plurality of air inlets 703 at the bottom of a homogenizer, continuously inputting air into the interior of a homogenizing cavity 2 by an air blowing pump 702, re-blowing and mixing fibers deposited at the bottom, further mixing the fibers, after the mixing, putting the slurry into a pushing box 8, pushing a rod 902 to push the slurry into a cleaning pool 12, arranging a discharge outlet 11 above a forming mesh belt 1402, after the slurry is distributed on the forming mesh belt 1402, driving the slurry to move towards one side far away from the discharge outlet 11 through a roller 1401, extruding the slurry, discharging formed fiber blocks from the upper side of the cleaning pool 12, moving the forming mesh belt 1402 to the lower side of a connecting plate 15, spraying clean water through a spray head 3, and continuing to discharge waste water from the forming mesh belt 1402 to the lower side of the subsequent winding outlet 17011.

In the description of the present utility model, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In addition, the descriptions of the "first," "second," and the like, herein are for descriptive purposes only and are not intended to be specifically construed as order or sequence, nor are they intended to limit the utility model solely for distinguishing between components or operations described in the same technical term, but are not to be construed as indicating or implying any relative importance or order of such features. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the utility model in any way, but any simple modification or equivalent variation of the above embodiment according to the technology of the present utility model falls within the scope of the present utility model.

Claims (7)

1. The special equipment for mixing glass fiber and ceramic fiber is characterized in that: including homogenate case (1), be equipped with homogenate chamber (2) in homogenate case (1), homogenate case (1) top is equipped with high-speed case (3) of placing glass fiber and places ceramic fiber's low-speed case (4), high-speed case (3) and low-speed case (4) inside and homogenate case (1) intercommunication, homogenate chamber (2) inside is equipped with homogenate subassembly (5) to glass fiber and ceramic fiber mixture, homogenate case (1) bottom is equipped with blow box (6), blow box (6) inside be equipped with blow subassembly (7) with homogenate chamber (2) intercommunication, promotion case (8) have been placed in the homogenate chamber (2) outside, promotion case (8) inside is equipped with promotion subassembly (9), one side that promotion case (8) are close to homogenate case (1) is equipped with discharge gate (10), one side that promotion case (8) kept away from homogenate case (1) is equipped with discharge gate (11), one side that promotion case (8) kept away from homogenate case (1) is equipped with homogenization case (12), be equipped with rolling assembly (14) and rolling assembly (14) are located in the washing both sides of washing assembly (14) and washing assembly (14) before the washing assembly is located in the washing assembly (14), be equipped with a plurality of compression rollers (16) that extrude thick liquids on connecting plate (15), be equipped with in wasing pond (12) and wash subassembly (17), blow box (6), promotion case (8) and wasing pond (12) bottom all are equipped with supporting legs (18).

2. The special equipment for mixing glass fiber and ceramic fiber according to claim 1, wherein the special equipment comprises the following components: the high-speed tank (3) is internally provided with a high-speed stirring cavity (301), the top of the high-speed tank (3) is provided with a high-speed motor (302), the inside of the high-speed tank (3) is provided with a high-speed rotating shaft (303) driven by the high-speed motor (302), the bottom of the high-speed tank (3) is provided with a first feeding port (304) communicated with the high-speed stirring cavity (301) and a homogenizing cavity (2), the top of the high-speed tank (3) is provided with a first feeding port (305) communicated with the outside and the high-speed stirring cavity (301), the inside of the low-speed tank (4) is provided with a low-speed stirring cavity (401), the top of the low-speed tank (4) is provided with a low-speed motor (402), the inside of the low-speed tank (4) is provided with a low-speed rotating shaft (403) driven by the low-speed motor (402), the bottom of the low-speed tank (4) is provided with a second feeding port (404) communicated with the low-speed stirring cavity (401) and the homogenizing cavity (2), and the top of the low-speed tank (4) is provided with a second feeding port (405) communicated with the low-speed stirring cavity (401), and the second feeding port (404) and the second feeding port (19).

3. The special equipment for mixing glass fiber and ceramic fiber according to claim 1, wherein the special equipment comprises the following components: the utility model provides a homogenization subassembly (5) is including setting up multiunit connecting rod (501) in inside bottom of homogenization case (1), and every connecting rod (501) of group is provided with two, and corresponds around and place, is equipped with two homogenization roller (502) from top to bottom between two connecting rods (501), homogenization roller (502) are connected with connecting rod (501) rotation, be equipped with multiturn strap (503) on homogenization roller (502).

4. The special equipment for mixing glass fiber and ceramic fiber according to claim 1, wherein the special equipment comprises the following components: the utility model discloses a gas blowing assembly, including setting up at the inside chamber of blowing (701) of blowing case (6), the inside at least one pump (702) that blows that is equipped with of blowing case (6), the inside a plurality of air inlets (703) that are equipped with of homogenate case (1), one side of blowing pump (702) towards homogenate case (1) is equipped with the gas blow pipe (704) that communicate air pump (702) and air inlet (703), blowing case (6) bottom is equipped with a plurality of external gas outlets (705) with chamber of blowing (701) of intercommunication.

5. The special equipment for mixing glass fiber and ceramic fiber according to claim 1, wherein the special equipment comprises the following components: the inside cavity (901) that is equipped with of promotion case (8), two promotion sticks (902) have been placed about in cavity (901), promote stick (902) and promote lateral wall around case (8) and rotate and be connected, promote stick (902) not set up on same horizontal plane, discharge gate (10) and bin outlet (11) all communicate with cavity (901).

6. The special equipment for mixing glass fiber and ceramic fiber according to claim 1, wherein the special equipment comprises the following components: the rolling assembly (14) comprises two rollers (1401) arranged on the left side and the right side of the top end of the cleaning tank (12), one roller (1401) arranged at the bottom end inside the cleaning tank (12), forming mesh belts (1402) are arranged on the three rollers (1401) in a rolling mode, a plurality of fixing columns (1403) are arranged above the connecting plates (15), and compression rollers (16) arranged above the forming mesh belts (1402) are arranged between the fixing columns (1403).

7. The special equipment for mixing glass fiber and ceramic fiber according to claim 1, wherein the special equipment comprises the following components: the cleaning assembly (17) comprises a water tank (1701) arranged outside the cleaning tank (12), a water pump (1702) is arranged at the top end of the water tank (1701), a channel for containing clean water to pass through is formed in the connecting plate (15), a plurality of spray heads (1703) spraying towards the lower forming mesh belt (1402) are arranged at the bottom of the connecting plate (15), and a plurality of water outlets (1704) communicated with the cleaning cavity (13) are formed at the bottom of the cleaning tank (12).