CN216799565U - Auxiliary agent mixing device is used in production of gel glass bead heated board - Google Patents

Abstract

The utility model relates to an auxiliary agent mixing arrangement is used in production of gel glass bead heated board, it relates to the field of heated board raw materials processing, it includes the agitator tank, be equipped with the stirring subassembly in the agitator tank, be equipped with a plurality of feed ports on the agitator tank, the inside wall of agitator tank be equipped with respectively with the mixing drum of a plurality of feed port one-to-ones, the section of thick bamboo wall of mixing drum is fixed on the pore wall of feed port, the inner tube wall of mixing drum is equipped with the mount pad, the diapire of mount pad is rotated and is connected and be equipped with the rotation axis, be equipped with on the mount pad and be used for driving rotation axis pivoted rotating assembly, the one end that the mount pad was kept away from to the rotation axis is connected with the stock guide through elastic component, it has the blanking space to reserve between the perisporium of stock guide and the inside wall of agitator tank. This application has the effect that improves the raw materials mixing uniformity.

Description

Auxiliary agent mixing device is used in production of gel glass bead heated board

Technical Field

The application relates to the field of heated board raw materials processing, especially relates to an auxiliary agent mixing arrangement is used in production of gel glass bead heated board.

Background

The gel glass bead heat insulation board is an environment-friendly inorganic light heat insulation material, has certain particle strength due to surface vitrification, is strong in ageing resistance and weather resistance, and has excellent heat insulation, fire prevention and sound absorption performances.

At present, in the production process of the gel glass bead heat insulation board, a stirring machine is generally utilized to stir and mix raw materials, a stirring shaft is arranged in the stirring machine, a plurality of stirring blades are arranged on the stirring shaft, the stirring shaft is driven to rotate, and then the stirring shaft and the stirring blades are utilized to stir and mix the raw materials.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: the above-mentioned mixing mode to the raw materials directly mixes the raw materials through (mixing) shaft and stirring vane, is difficult to the multiple raw materials stirring misce bene.

SUMMERY OF THE UTILITY MODEL

In order to help raw materials misce bene, this application provides a gel glass bead auxiliary agent mixing arrangement for heated board production.

The application provides a pair of auxiliary agent mixing arrangement is used in production of gel glass bead heated board adopts following technical scheme:

the utility model provides an auxiliary agent mixing arrangement is used in production of gel glass pearl heated board, includes the agitator tank, be equipped with the stirring subassembly in the agitator tank, be equipped with a plurality of feed ports on the agitator tank, the inside wall of agitator tank be equipped with respectively with a plurality of feed port one-to-one's mixing drum, the section of thick bamboo wall of mixing drum is fixed on the pore wall of feed port, the inner tube wall of mixing drum is equipped with the mount pad, the diapire of mount pad is rotated and is connected and be equipped with the rotation axis, be equipped with on the mount pad and be used for the drive rotation axis pivoted rotating assembly, the rotation axis is kept away from the one end of mount pad is connected with the stock guide through elastic component, the perisporium of stock guide with reserve the blanking space between the inside wall of agitator tank.

By adopting the technical scheme, different raw materials can be conveniently fed through the plurality of feeding holes, so that the raw materials fall on the material guide plate in the mixing drum, the rotating assembly is utilized to drive the rotating shaft to rotate, the material guide plate is driven to rotate through the rotating shaft, the material guide plate is connected with the rotating shaft through the elastic assembly and rotates along with the material guide plate, the material guide plate deflects under the action of the gravity of the raw materials and extends out of the mixing drum, so that the raw materials on the material guide plate fall into a blanking space, the raw materials fall into the stirring box from the blanking space, and meanwhile, the material guide plate extends out of the mixing drum, so that the position of the raw materials falling into the stirring box is changed; through the cooperation of stock guide, rotation axis, elastic component and rotating assembly, prolonged the time that the raw materials fell into the agitator tank, and through the setting of a plurality of feed ports, changed the position that different raw materials fell into the agitator tank, helped the stirring subassembly to the raw materials stirring, improved the homogeneity that the raw materials mixed.

In a specific can embodiment, rotating assembly includes the action wheel, follows driving wheel, hold-in range and rotating electrical machines, the lateral wall of mount pad and be equipped with the recess along self axial, the action wheel rotates to be connected on the cell wall of recess, the rotation axis is close to the one end of mount pad stretch into in the recess and with the coaxial fixed connection of action wheel, the fixed extension board that is equipped with of lateral wall of mixing drum, rotating electrical machines's organism fixed mounting be in on the extension board, follow the driving wheel with the coaxial fixed connection of rotating electrical machines's drive shaft, the action wheel with pass through between the follow driving wheel hold-in range synchronous rotation, the lateral wall of mixing drum is equipped with the confession the transfer port that the hold-in range passed.

Through adopting above-mentioned technical scheme, start the rotating electrical machines, the rotating electrical machines drive from the driving wheel rotation, and then drive the action wheel rotation through the hold-in range from the driving wheel, and then the action wheel drives rotation axis synchronous rotation to the rotation axis drives the stock guide synchronous rotation, so that fall into the agitator tank with the raw materials dispersion on the stock guide in the blanking space, and then changed the position that the raw materials fell into the agitator tank, improved the homogeneity of mixing to the raw materials.

In a specific possible implementation scheme, the elastic assembly comprises an expansion link, a pull rope and a spring, a telescopic groove is formed in one end, away from the mounting seat, of the rotating shaft, one end of the expansion link extends into the telescopic groove, the other end of the expansion link is connected with one end of the pull rope, the other end of the pull rope is connected with the top wall of the material guide plate, the spring is sleeved on the expansion link, one end of the spring is connected with the groove wall, opposite to the groove opening of the expansion link, of the telescopic groove, and the other end of the spring is connected with the side wall of the expansion link.

By adopting the technical scheme, the elastic connection between the material guide plate and the rotating shaft is realized by utilizing the combination of the spring, the telescopic rod and the pull rope, when the raw materials fall on the material guide plate, the material guide plate deflects under the action of the gravity of the raw materials and moves downwards to extend out of the mixing drum, so that the raw materials on the material guide plate are guided into the blanking space to play a role in guiding the materials, and the position of the raw materials falling into the stirring box is changed; simultaneously, the stock guide is at the in-process that moves down, and the stock guide moves down through stay cord pulling telescopic link, and then the spring is stretched, and after the raw materials accomplished through the feed port material loading, utilizes the elasticity restoring force of spring for the telescopic link shifts up, and then resets through telescopic link and stay cord pulling stock guide.

In a specific possible embodiment, the side wall of the material guide plate facing the rotating shaft is provided with a material guide slope, and the cross-sectional area of the material guide plate decreases from the center to the periphery.

Through adopting above-mentioned technical scheme, the domatic setting of guide falls to the effect that plays the guide in the blanking space to the raw materials on the stock guide, and the raw materials of being convenient for fall into the blanking space.

In a specific practical implementation scheme, the stirring subassembly includes servo motor, mixing shaft and a plurality of mixing blade, servo motor's organism fixed mounting be in the roof of agitator tank, servo motor's drive shaft stretch into in the agitator tank and with the coaxial fixed connection of mixing shaft, a plurality of mixing blade all is fixed to be set up on the lateral wall of mixing shaft, a plurality of mixing blade's cross-sectional area is by being close to servo motor's a lateral direction is kept away from servo motor's one side increases progressively.

Through adopting above-mentioned technical scheme, start servo motor, servo motor drive mixing shaft rotates, and then mixing shaft drives a plurality of mixing blades rotatoryly to raw materials misce bene.

In a specific can embodiment, still include the agitator frame, the both sides wall of agitator tank passes through the axis of rotation and rotates the connection on the agitator frame, the axial of rotation axis perpendicular to the axial of agitator tank, be equipped with on the agitator frame and be used for the drive the rotation axis is around self circumferential direction's gear motor.

Through adopting above-mentioned technical scheme, start gear motor, gear motor drive rotation axis rotates, and then drives the agitator tank through the rotation axis and around the circumference rotation of rotation axis, realizes the angle modulation to the agitator tank, has further improved the homogeneity to the raw materials mixture in the agitator tank.

In a specific possible embodiment, the stirring box is respectively provided with a feeding hopper which is in one-to-one correspondence with a plurality of feeding holes, the feeding hoppers are communicated with the feeding holes, and the cross sectional area of each feeding hopper increases from one side close to the feeding hole to the other side far away from the feeding hole.

Through adopting above-mentioned technical scheme, the effect of direction is played in sending into the feed inlet with the raw materials to the setting of feeder hopper.

In a specific possible embodiment, the side wall of the stirring box far away from the feeding hole is provided with an outlet hole, and the side wall of the stirring box is provided with a sealing door for sealing the outlet hole.

Through adopting above-mentioned technical scheme, to the raw materials completion back that mixes, open the sealing door, be convenient for take out the raw materials that the stirring is mixed.

In summary, the present application includes at least one of the following beneficial technical effects:

the material guide plate, the rotating shaft, the elastic assembly and the rotating assembly are matched, so that the time for the raw materials to fall into the stirring box is prolonged, the positions of different raw materials falling into the stirring box are changed, the raw materials can be uniformly stirred by the stirring assembly, and the uniformity of raw material mixing is improved;

the elastic connection between the material guide plate and the rotating shaft is realized by the combination of the spring, the telescopic rod and the pull rope, when the raw materials fall on the material guide plate, the material guide plate deflects under the action of the gravity of the raw materials and moves downwards to extend out of the mixing drum, so that the raw materials on the material guide plate are guided into the blanking space to play a role in guiding the raw materials, and meanwhile, the position of the raw materials falling into the stirring box is changed, and the improvement of the uniformity of the raw material mixing is facilitated;

the arrangement of the material guide slope surface plays a role in guiding the raw materials on the material guide plate to fall into the blanking space, so that the raw materials can fall into the blanking space conveniently.

Drawings

Fig. 1 is an overall structure schematic diagram of an auxiliary agent mixing device for producing a gel glass bead insulation board in the embodiment of the application.

Fig. 2 is a schematic sectional view of the plane a-a in fig. 1.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Fig. 4 is a schematic cross-sectional view of the plane B-B in fig. 1.

Fig. 5 is an enlarged view at B in fig. 4.

Description of reference numerals: 1. a stirring box; 101. a feed port; 102. a feed hopper; 103. a discharge hole; 104. a closing door; 2. a stirring assembly; 21. a servo motor; 22. a mixing shaft; 23. a mixing blade; 3. a mixing drum; 4. a mounting seat; 5. a rotating shaft; 6. a rotating assembly; 61. a driving wheel; 62. a driven wheel; 63. a synchronous belt; 64. a rotating electric machine; 65. a groove; 66. a support plate; 67. a transfer port; 7. a material guide plate; 71. a material guiding slope; 8. an elastic component; 81. a telescopic rod; 82. pulling a rope; 83. a spring; 84. a telescopic groove; 9. a stirring frame; 10. a rotating shaft; 11. a speed reducing motor.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses auxiliary agent mixing arrangement is used in production of gel glass bead heated board. Referring to fig. 1, auxiliary agent mixing arrangement includes agitator 9, and agitator 9 is the setting of "Jiong" type, and the installation is equipped with agitator tank 1 in the agitator 9, and the roof of agitator tank 1 is equipped with and is equipped with a plurality of feed ports 101 along self circumference, and in this embodiment, the quantity of a plurality of feed ports 101 can be four.

Referring to fig. 1, feed hoppers 102 corresponding to four feed holes 101 one to one are respectively arranged on the top wall of a stirring box 1, the feed hoppers 102 are arranged in a horn shape, one end with a small caliber of each feed hopper 102 is fixedly arranged on the top wall of the stirring box 1, and the feed hoppers 102 are communicated with the feed holes 101; the feed hopper 102 is used for guiding the raw materials falling into the stirring box 1.

Referring to fig. 1, a discharge hole 103 is formed in the bottom wall of the stirring box 1, and a closing door 104 for closing the discharge hole 103 is fixedly installed on the bottom wall of the stirring box 1; after the raw materials are stirred and mixed, the closing door 104 is opened, so that the mixed raw materials can be conveniently discharged through the discharge hole 103.

Referring to fig. 2 and 3, equal fixed mounting has a mixing drum 3 on the pore wall of every feed port 101, the roof and the diapire of mixing drum 3 all are the opening form setting, mixing drum 3 is vertical to be set up, the bottom of mixing drum 3 extends to agitator tank 1 inside, the inner tube wall fixed mounting of mixing drum 3 has mount pad 4, the length direction of mount pad 4 and mixing drum 3 radially syntropy, enclose between the both sides wall of mount pad 4 and the inside wall of mixing drum 3 and close and be formed with the blanking room that supplies the raw materials to fall into in mixing drum 3.

The diapire of mount pad 4 rotates and is connected with the rotation axis 5 of vertical setting, the central axis of rotation axis 5 and the central axis collineation of mixing drum 3, be equipped with on the mount pad 4 and be used for driving rotation axis 5 pivoted rotating assembly 6, the below of rotation axis 5 is equipped with stock guide 7, the top surface of stock guide 7 is equipped with the domatic 71 of guide, the cross-sectional area of stock guide 7 is by the center to diminishing all around, link to each other through elastic component 8 between rotation axis 5 and the stock guide 7, it has the blanking space to reserve between the perisporium of stock guide 7 and the inside wall of agitator tank 1.

The setting of four feed ports 101, be convenient for send into agitator tank 1 with different raw materials through mixing drum 3 in, when the raw materials gets into mixing drum 3 in, the raw materials is on stock guide 7 at self action of gravity whereabouts, through setting up domaticly, play the guide effect in falling into the blanking space to the raw materials, and because be connected through elastic component 8 between stock guide 7 and the rotation axis 5, and then when the raw materials falls on stock guide 7, stock guide 7 takes place to incline and stretches out outside mixing drum 3 under the action of gravity of raw materials, the effect of playing the guide in falling into agitator tank 1 from the blanking space to the raw materials, the position that the raw materials fell into agitator tank 1 has been changed simultaneously.

Meanwhile, the rotating shaft 5 is driven to rotate by the rotating assembly 6, and then the rotating shaft 5 drives the material guide plate 7 to synchronously rotate so as to disperse the raw materials on the material guide plate 7 and enable the raw materials to fall into the stirring box 1 through a blanking space, and then the stirring assembly 2 is used for stirring the raw materials in the stirring box 1 so as to stir and mix different raw materials; through the setting of four mixing drums 3, prolonged the time that the raw materials fell into agitator tank 1 to disperse the position that different raw materials fell into agitator tank 1, improved the homogeneity that mixes the raw materials.

Referring to fig. 2, the stirring assembly 2 includes a servo motor 21, a mixing shaft 22 and a plurality of mixing blades 23, the body of the servo motor 21 is fixedly mounted on the top wall of the stirring box 1, the mixing shaft 22 is vertically arranged inside the stirring box 1, the driving shaft of the servo motor 21 extends into the stirring box 1 and is coaxially and fixedly connected with the top end of the mixing shaft 22, the plurality of mixing blades 23 are all fixedly arranged on the side wall of the mixing shaft 22, and the cross-sectional areas of the plurality of mixing blades 23 are gradually increased from high to low along the vertical direction of the mixing shaft 22;

start servo motor 21, servo motor 21 drive mixing shaft 22 rotates, and then mixing shaft 22 drives a plurality of mixing blade 23 synchronous revolution, when the raw materials from mixing drum 3 in fall into mixing blade 23 in agitator tank 1 on, along with a plurality of mixing blade 23's rotation, utilize mixing blade 23 on mixing shaft 22 lateral wall upper portion to carry out the first mixing to the raw materials of difference earlier, when the raw materials falls into agitator tank 1 bottom, mix once more to the raw materials of difference through mixing blade 23 of mixing shaft 22 lateral wall lower part, the mixed effect and the mixing efficiency to the raw materials have been improved.

Referring to fig. 2, the vertical lateral wall in both sides of agitator frame 9 all rotates and is connected with axis of rotation 10, the axial of the axial perpendicular to agitator tank 1 of axis of rotation 10, two axis of rotation 10 rotate with the both sides wall of agitator tank 1 respectively and are connected, the one end that agitator frame 9 was kept away from to axis of rotation 10 rotates with the lateral wall of agitator tank 1 and is connected, be equipped with the gear motor 11 that is used for driving one of them axis of rotation 10 rotatory on the lateral wall of agitator frame 9, be equipped with the mounting panel on the lateral wall of agitator frame 9, gear motor 11's organism fixed mounting is on the mounting panel, start gear motor 11, one of them axis of rotation 10 of gear motor 11 drive rotates, and then drive agitator tank 1 and revolute the circumferential direction of axis of rotation 10, the angle modulation to agitator tank 1 has been realized, the homogeneity of raw materials mixture in agitator tank 1 has further been improved.

Referring to fig. 3, elastic component 8 includes telescopic link 81, stay cord 82 and spring 83, the bottom of rotation axis 5 and be equipped with flexible groove 84 along self axial, flexible groove 84 is used for supplying telescopic link 81 to insert, the vertical setting of telescopic link 81, the top of telescopic link 81 stretches into in flexible groove 84, the one end of spring 83 links to each other with the top of telescopic link 81, the other end of spring 83 links to each other with the cell wall that flexible groove 84 is relative rather than the notch, the bottom of telescopic link 81 stretches out outside the notch of flexible groove 84 and links to each other with the one end of stay cord 82, the other end of stay cord 82 links to each other with the roof of stock guide 7.

Due to the arrangement of the pull rope 82, the telescopic rod 81 and the spring 83, the elastic connection between the material guide plate 7 and the rotating shaft 5 is realized, so that the material guide plate 7 deflects under the action of the gravity of the raw materials, and the raw materials can fall into the stirring box 1 conveniently; meanwhile, the material guide plate 7 moves downwards under the action of gravity of the raw material and extends out of the mixing drum 3, the position of the raw material falling into the stirring box 1 is changed, the material guide plate 7 is connected with the telescopic rod 81 through the pull rope 82, the material guide plate 7 further moves downwards in the telescopic chute 84 through the pull rope 82, the spring 83 is stretched, the raw material is fed through the feeding hole 101 and is completed, the material guide plate 7 loses external pressure, the good elastic resetting force of the spring 83 is further utilized, the telescopic rod 81 is pulled to move upwards in the telescopic chute 84, and the telescopic rod 81 drives the material guide plate 7 to move upwards through the pull rope 82, so that the material guide plate 7 is reset.

Referring to fig. 4 and 5, the rotating assembly 6 includes a driving wheel 61, a driven wheel 62, a synchronous belt 63 and a rotating motor 64, a side wall of the mounting base 4 facing the mixing drum 3 is provided with a groove 65, a length direction of the groove 65 is in the same direction as a radial direction of the mixing drum 3, the groove 65 is arranged to penetrate through a short side groove wall of one side of the mounting base 4, the driving wheel 61 is rotatably connected to a groove wall of the groove 65 through a rotating shaft and is far away from one side of a notch of the groove, a top end of the rotating shaft 5 extends into the groove 65 and is coaxially and fixedly connected with a bottom wall of the driving wheel 61, a bottom wall of the mounting base 4 is provided with a rotating hole for rotation of the rotating shaft 5, a central axis of the driving wheel 61 and a central axis of the mixing drum 3 are collinear, a support plate 66 horizontally arranged is fixedly mounted on an outer side wall of the mixing drum 3, a body of the rotating motor 64 is fixedly mounted on the support plate 66, the driven wheel 62 is coaxially and fixedly connected with a driving shaft of the rotating motor 64, the driving wheel 61 and the driven wheel 62 are driven by a synchronous belt 63, and a conveying opening 67 for the synchronous belt 63 to pass through is arranged on the side wall of the mixing drum 3; the rotating motor 64 is started, the rotating motor 64 drives the driven wheel 62 to rotate, the driven wheel 62 and the driving wheel 61 are driven to synchronously rotate through the synchronous belt 63, the driving wheel 61 drives the rotating shaft 5 to rotate, and therefore the rotating shaft 5 drives the material guide plate 7 to rotate through the elastic assembly 8.

The implementation principle of the auxiliary agent mixing device for producing the gel glass bead insulation board in the embodiment of the application is as follows: different raw materials are respectively fed into the stirring box 1 through the mixing drum 3 through the four feeding holes 101, when the raw materials enter the mixing drum 3, the raw materials fall on the material guide plate 7, and as the telescopic rod 81 is connected with the material guide plate 7 through the pull rope 82, the material guide plate 7 deflects under the action of the gravity of the raw materials and extends out of the mixing drum 3, so that the position of the raw materials falling in the stirring box 1 is changed; meanwhile, the rotating motor 64 is started, the rotating motor 64 drives the driven wheel 62 to drive the driving wheel 61 to rotate through the synchronous belt 63, then the driving wheel 61 drives the rotating shaft 5 to synchronously rotate, and further the material guide plate 7 synchronously rotates, so that the raw materials on the material guide plate 7 are dispersed in the stirring box 1, premixing of the raw materials is realized, and the mixing uniformity of the raw materials is improved; and the raw materials when falling into agitator tank 1, start servo motor 21, servo motor 21 drive mixing shaft 22 rotates, and mixing shaft 22 drives a plurality of mixing blades 23 synchronous revolution, and then utilizes a plurality of mixing blades 23 to stir the raw materials, has realized the mixture to the raw materials.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an auxiliary agent mixing arrangement is used in production of gel glass pearl heated board, includes agitator tank (1), be equipped with stirring subassembly (2) in agitator tank (1), its characterized in that: be equipped with a plurality of feed ports (101) on agitator tank (1), the inside wall of agitator tank (1) is equipped with respectively with a plurality of mixing drum (3) of feed port (101) one-to-one, the section of thick bamboo wall of mixing drum (3) is fixed on the pore wall of feed port (101), the inner tube wall of mixing drum (3) is equipped with mount pad (4), the diapire of mount pad (4) rotates to be connected and is equipped with rotation axis (5), be equipped with on mount pad (4) and be used for the drive rotation axis (5) pivoted rotating assembly (6), rotation axis (5) are kept away from the one end of mount pad (4) is connected with stock guide (7) through elastic component (8), the perisporium of stock guide (7) with reserve between the inside wall of agitator tank (1) and have the blanking space.

2. The auxiliary agent mixing device for producing the gel glass bead heat-insulation plate according to claim 1 is characterized in that: the rotating component (6) comprises a driving wheel (61), a driven wheel (62), a synchronous belt (63) and a rotating motor (64), a groove (65) is arranged on the side wall of the mounting seat (4) along the axial direction of the mounting seat, the driving wheel (61) is rotationally connected to the groove wall of the groove (65), one end of the rotating shaft (5) close to the mounting seat (4) extends into the groove (65) and is coaxially and fixedly connected with the driving wheel (61), a support plate (66) is fixedly arranged on the outer side wall of the mixing drum (3), the body of the rotating motor (64) is fixedly arranged on the support plate (66), the driven wheel (62) is coaxially and fixedly connected with a driving shaft of the rotating motor (64), the driving wheel (61) and the driven wheel (62) synchronously rotate through the synchronous belt (63), the side wall of the mixing drum (3) is provided with a conveying opening (67) for the synchronous belt (63) to pass through.

3. The auxiliary agent mixing device for producing the gel glass bead heat-insulation plate according to claim 1 is characterized in that: elastic component (8) include telescopic link (81), stay cord (82) and spring (83), rotation axis (5) are kept away from the one end of mount pad (4) is equipped with flexible groove (84), the one end of telescopic link (81) is stretched into in flexible groove (84), the other end of telescopic link (81) with the one end of stay cord (82) links to each other, the other end of stay cord (82) with the roof of stock guide (7) links to each other, spring (83) cover is established on telescopic link (81), the one end of spring (83) with flexible groove (84) link to each other rather than the cell wall that the notch is relative, the other end of spring (83) with the lateral wall of telescopic link (81) links to each other.

4. The auxiliary agent mixing device for producing the gel glass bead heat-insulation plate according to claim 1 is characterized in that: the side wall of the material guide plate (7) facing the rotating shaft (5) is provided with a material guide slope surface (71), and the cross sectional area of the material guide plate (7) is gradually reduced from the center to the periphery.

5. The auxiliary agent mixing device for producing the gel glass bead heat-insulation plate according to claim 1 is characterized in that: stirring subassembly (2) include servo motor (21), mixing shaft (22) and a plurality of mixing blade (23), the organism fixed mounting of servo motor (21) in the roof of agitator tank (1), the drive shaft of servo motor (21) stretches into in agitator tank (1) and with the coaxial fixed connection of mixing shaft (22), it is a plurality of mixing blade (23) all fixed the setting is in on the lateral wall of mixing shaft (22), a plurality of the cross-sectional area of mixing blade (23) is by being close to one side of servo motor (21) is kept away from one side of servo motor (21) increases progressively.

6. The auxiliary agent mixing device for producing the gel glass bead heat-insulation plate according to claim 1 is characterized in that: still include stirring frame (9), the both sides wall of agitator tank (1) is passed through axis of rotation (10) and is rotated the connection on stirring frame (9), the axial perpendicular to of rotation axis (5) the axial of agitator tank (1), be equipped with on stirring frame (9) and be used for the drive rotation axis (5) are around self circumferential direction's gear motor (11).

7. The auxiliary agent mixing device for producing the gel glass bead heat-insulation plate according to claim 1 is characterized in that: the stirring box (1) is provided with feed hoppers (102) which correspond to the feed holes (101) one to one, the feed hoppers (102) are communicated with the feed holes (101), and the cross sectional areas of the feed hoppers (102) are gradually increased from one side close to the feed holes (101) to one side far away from the feed holes (101).

8. The auxiliary agent mixing device for producing the gel glass bead heat-insulation plate according to claim 1 is characterized in that: the side wall of the stirring box (1) far away from the feeding hole (101) is provided with a discharging hole (103), and the side wall of the stirring box (1) is provided with a sealing door (104) used for plugging the discharging hole (103).

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