CN203019513U - Continuous blending conveyor for light heat insulation wall body - Google Patents

Abstract

The utility model relates to processing equipment of a construction wall body, and in particular relates to a continuous blending conveyor for a light heat insulation wall body. The continuous blending conveyor comprises a bulk constant feeder, a bulk and liquid continuous blending conveyor, a slurry and chemical liquid continuous blending conveyor, a quantitative water supply device, a slurry conveying mechanism, a control system and a stand, wherein the bulk constant feeder is used for conveying bulk to the bulk and liquid continuous blending conveyor; the quantitative water supply device is used for injecting water into the slurry and chemical liquid continuous blending conveyor; the bulk and liquid continuous blending conveyor is used for blending and mixing the bulk with the water in a blending zone; the blended slurry is conveyed to a discharge port through the bulk and liquid continuous blending conveyor and flows into a slurry box; and the slurry is pumped into the slurry and chemical liquid continuous blending conveyor along a pipeline and is uniformly mixed with medicine liquid, and is then injected into a forming die. The continuous blending conveyor disclosed by the utility model can realize continuous blending and conveying of raw materials of the light heat insulation wall body, and meet demands of wall body field construction in construction site as well as industrial continuous production of wallboards and various building blocks.

Description

The continuous mixing conveyer that is used for the light insulating body of wall

Technical field

The utility model relates to the process equipment of construction wall, specifically a kind of continuous mixing conveyer for the light insulating body of wall.

Background technology

Novel light insulating construction material is the environmental protection and energy saving product of developing in recent years, has wide market prospects.At present, domestic form of construction work is that the various raw materials rear single tank of manually weighing is stirred operation, and labour intensity is large, efficiency of construction is low, cost of labor is high, is mainly to work continuously, all need artificial conveyance between each technique, can not satisfy integral wall, the particularly perfusion on body of wall top.

The utility model content

The purpose of this utility model is to provide a kind of continuous mixing conveyer for the light insulating body of wall.Should mix continuously conveyer and solve the problems referred to above that manually-operated exists, and can realize the purpose that continuous mix and blend is carried.

The purpose of this utility model is achieved through the following technical solutions:

The utility model comprises bulk cargo constant feeder, bulk cargo and liquid mixing conveyer, slurry and the continuous mixing conveyor of liquid, quantitative water supply device, stock transfer mechanism, control system and frame, the bulk cargo constant feeder is arranged on the feed end of bulk cargo and liquid mixing conveyer, comprise hopper, pocket-wheel, gyroaxis, switching support, buncher and the first cylindrical shell, the first cylindrical shell is arranged on switching support, upper end and lower end at the first cylindrical shell have charging aperture and discharging opening, and described hopper is arranged on the first cylindrical shell, be positioned at the top of charging aperture; Described the first inner barrel is provided with accommodation space, and gyroaxis is rotatably installed on described the first cylindrical shell, and an end of gyroaxis is connected with the output shaft of buncher on being arranged on switching support; Described pocket-wheel is placed in described accommodation space, is arranged on gyroaxis, and with the gyroaxis interlock, this pocket-wheel is provided with the identical frid of a plurality of bucket capacities, and each frid all quantitatively connects material by charging aperture, is more quantitatively discharged by gyroaxis driven rotary to discharging opening;

Bulk cargo comprises roll shaft, end cap, the second cylindrical shell, helical blade, spike-tooth and the first support with liquid mixing conveyer, the casing that is surrounded by the second cylindrical shell and two ends end cap thereof is arranged on frame by the first support, described roll shaft is rotatably installed on the end cap of two ends, one end of roll shaft is connected with power source by transmission device, is rotated by the power source drive roller shaft; The two ends of described the second cylindrical shell have the first material receiving port and discharge gate, and this first material receiving port is positioned at the below of described discharging opening, to discharge gate, helical blade and a plurality of spike-tooth are installed successively by the first material receiving port on the roll shaft in the second cylindrical shell; Described helical blade is positioned at the below of the first material receiving port, and spike-tooth is arranged on roll shaft in the shape of a spiral, is provided with the inlet with ball valve on the second cylindrical shell, and this inlet is connected with rack-mounted quantitative water supply device; The bulk cargo that is fallen by described the first material receiving port is delivered to the bottom of inlet by the helical blade with the roll shaft rotation, injected the liquid of inlet by the quantitative water supply device by carrying to discharge gate with each mix and blend limit, spike-tooth limit of roll shaft rotation;

The continuous mixing conveyor of slurry and liquid comprises the 3rd cylindrical shell, playpipe assembly, shower nozzle, nozzle, hole bridge insert, ring bridge insert and bracing frame, one end of the 3rd cylindrical shell is connected with slurry box in rack-mounted stock transfer mechanism, the other end of the 3rd cylindrical shell is provided with outlet, described playpipe assembly is plugged on the 3rd cylindrical shell, nozzle and shower nozzle are arranged on the playpipe assembly that is positioned at the 3rd cylindrical shell successively, and this playpipe assembly is communicated with variable pump by tube connector; Described shower nozzle is provided with the valve head that moves back and forth vertically, by the switch of controlling the micropore of offering on shower nozzle that moves back and forth of valve head; Support frame as described above is positioned at the 3rd cylindrical shell, be interval with hole bridge insert and ring bridge insert on bracing frame, the second material receiving port of described slurry box is positioned at the below of described discharge gate, by described slurry box enter in the 3rd cylindrical shell slurry with pump into liquid limit in the 3rd cylindrical shell by variable pump and evenly mix the limit successively through the gap between the through hole on the via hole bridge insert and ring bridge insert and the 3rd cylinder inboard wall, exported by outlet;

Described buncher, power source, quantitative water supply device and stock transfer mechanism are electrically connected to rack-mounted control system respectively.

Wherein: described pocket-wheel comprises closure plate, support plate and frid, and closure plate is two, and the two ends that lay respectively at described the first cylindrical shell are inner; Described gyroaxis passes from the center of two closure plates, is provided with the support plate of interlock on the gyroaxis between two closure plates, and the edge of this support plate all is equipped with the identical frid of bucket capacity along circumferentially evenly being provided with a plurality of grooves in each groove; Described frid is arc, and one lateral edges outward forms the bending edge be welded on support plate, and the opposite side edge joint weld of frid is connected on support plate, and with the bending of adjacent frid along connecting; Described bending is along being arc, and the curvature of its arc is identical with the curvature of the first cylindrical shell; Described closure plate and the first cylindrical shell are matched in clearance;

Described spike-tooth is divided into anterior spike-tooth and rear portion spike-tooth, is respectively equipped with the inlet with ball valve on the second cylindrical shell corresponding to described anterior spike-tooth and rear portion spike-tooth; The part of corresponding the second cylindrical shell of described anterior spike-tooth is anterior spike-tooth section, the part of corresponding the second cylindrical shell of rear portion spike-tooth is rear portion spike-tooth section, the anterior inlet of at least one filling liquid in the anterior spike-tooth section is installed on the second cylindrical shell of anterior spike-tooth section, and each anterior inlet is equipped with anterior ball valve; The rear portion inlet of at least one filling liquid in the spike-tooth section of rear portion is installed on the second cylindrical shell of described rear portion spike-tooth section, and each rear portion inlet is equipped with the rear portion ball valve, and described anterior inlet and rear portion inlet are connected with the quantitative water supply device respectively; Described anterior spike-tooth is identical with rear portion spike-tooth shape and structure, all is the structure of " L " shape for be made of end face two boards, and the contact-making surface that wherein contacts with roll shaft is cambered surface; The radian of described contact-making surface is identical with the radian of roll shaft; Described two boards tilts with roll shaft respectively, and the plate that wherein area is larger is arc; The lead angle of described rear portion spike-tooth is greater than the lead angle of anterior spike-tooth;

Described playpipe assembly comprises playpipe and valve rod, and wherein playpipe is plugged on the 3rd cylindrical shell, has the second through hole in the middle of playpipe, and an end of described playpipe is communicated with variable pump by tube connector, and the other end is threaded and controls the valve rod of medicinal liquid flow; Described nozzle is arranged on the playpipe assembly that is positioned at the 3rd cylindrical shell, has the first through hole that is connected with described the second through hole on nozzle; The longitudinal center line of the longitudinal center line of described the second through hole and the 3rd cylindrical shell is perpendicular, and the longitudinal center line of the first through hole and the second through hole is perpendicular;

One end of described shower nozzle is connected with nozzle, and the other end has third through-hole, is evenly equipped with a plurality of micropores around third through-hole, is provided with cavity in the inside of shower nozzle; Described valve head passes from third through-hole, and cover has return spring on valve head; The axial cross section of described valve head is " work " font, one end of " work " font is positioned at cavity, the other end is positioned at outside shower nozzle, be positioned at sheathed described return spring on the valve head of cavity inside, the two ends of this return spring are connected to respectively on an end and shower nozzle of valve head;

Described hole bridge insert is annular, has fourth hole in the middle of it; Described ring bridge insert is disk, and the edge of disk forms projection along circumferentially being evenly equipped with a plurality of arc gap between each arc gap; One end of described the 3rd cylindrical shell is connected with slurry box by elbow, described tube connector comprises flexible pipe and steel pipe, and wherein steel pipe is fixed on elbow by support, and an end of described flexible pipe is connected with variable pump, the other end is connected with an end of steel pipe, and the other end of steel pipe is connected to the playpipe assembly;

Described quantitative water supply device comprises water pump, waterpipe, water tank, magnetic valve, microswitch and first flow meter, wherein water tank is arranged on frame, water pump is positioned on water tank and with control system and is electrically connected to, one end of described waterpipe is communicated with water pump, the other end and bulk cargo are connected with inlet on liquid mixing conveyer, are respectively arranged with the magnetic valve, microswitch and the first flow meter that are electrically connected to control system on waterpipe;

Described stock transfer mechanism comprises mashing pump, the second flowmeter, slurry box and slurry pipeline, and wherein slurry box is arranged on frame, has the second material receiving port on slurry box, and this second material receiving port is arranged in the below of bulk cargo and liquid mixing conveyer discharge gate; Described mashing pump is positioned on slurry box and with control system and is electrically connected to, one end of described slurry pipeline is communicated with mashing pump, the other end is connected with the 3rd cylindrical shell in the continuous mixing conveyor of slurry and liquid, is provided with the second flowmeter that is electrically connected to control system on slurry pipeline.

Advantage of the present utility model and good effect are:

1. the utility model can be realized the continuous mixing conveying of light insulating body of wall raw material, has satisfied the batch production quantity-produced needs of construction site body of wall site operation and wallboard and various building blocks.

2. bulk cargo constant feeder of the present utility model utilizes the bucket capacity of frid on the speed change characteristic of buncher and pocket-wheel to realize continuous dosing of very, has reduced labour intensity, has improved operating efficiency.

3. the frid that connects material of utility model bulk cargo constant feeder rotates in the accommodation space that closure plate and cylinder plate form, and has improved working environment.

4. the utility model bulk cargo has realized with liquid mixing conveyer the purpose that the while carries continuously in the process of bulk cargo and liquid mix and blend, has improved efficiency of construction, has reduced workman's labour intensity.

5. the utility model bulk cargo is arranged on roll shaft in the shape of a spiral with the front and rear portions spike-tooth of liquid mixing conveyer, and bulk cargo and liquid in mix and blend, are carried to the discharge gate direction.

6. the utility model bulk cargo forms helicoid with the interarea of the rear portion spike-tooth of liquid mixing conveyer, the semisolid that anterior spike-tooth section mix and blend is formed and water mixes and carry to the direction of discharge gate, minor face forms the helicoid opposite with interarea, semisolid and water are mixed and form stream to interarea and carry in the opposite direction, the flow direction of two kinds of opposite directions forms turbulent flow and strengthens mixing of semi-solid and water in cylindrical shell, make mix and blend more even; The interarea of rear portion spike-tooth and the area difference of minor face make the slurry in mixing carry continuously to the direction of discharge gate.

7. the utility model bulk cargo has reduced working procedure with liquid mixing conveyer, has reduced cost.

8. the continuous mixing conveyor of the utility model slurry and liquid mixes rapidly slurry and liquid in cylindrical shell, and when liquid stop for after, can not stop up the liquid shower nozzle when in cylindrical shell, slurry pressure is larger, reach the purpose that slurry and liquid mix conveying continuously.

9. the valve rod in the continuous mixing conveyor of the utility model slurry and liquid can be regulated the flow of liquid.

10. the hole bridge insert in the continuous mixing conveyor of the utility model slurry and liquid and ring bridge insert can make slurry and liquid mix in cylindrical shell.

Description of drawings

Fig. 1 is one of perspective view of the present utility model;

Fig. 2 is two of perspective view of the present utility model;

Fig. 3 is the structural representation of the utility model bulk cargo constant feeder;

Fig. 4 is the structural front view of pocket-wheel in Fig. 3;

Fig. 5 is the A-A cutaway view of Fig. 4;

Fig. 6 is the B-B cutaway view of Fig. 4;

Fig. 7 is the partial enlarged drawing at C place in Fig. 5;

Fig. 8 is the perspective view of frid in Fig. 3;

Fig. 9 is the profile of frid in Fig. 3;

Figure 10 is the utility model bulk cargo and the internal structure schematic diagram of liquid mixing conveyer;

Figure 11 is the structural representation of roll shaft in Figure 10, helical blade and spike-tooth combination;

Figure 12 is one of structural representation of front (afterwards) section's spike-tooth in Figure 10;

Figure 13 be in Figure 10 before (afterwards) section's spike-tooth structural representation two;

Figure 14 be in Figure 10 before (afterwards) section's spike-tooth structural representation three;

Figure 15 is the overall structure schematic diagram of the utility model slurry and the continuous mixing conveyor of liquid;

Figure 16 is the partial schematic diagram of playpipe assembly, nozzle and shower nozzle in Figure 15;

Figure 17 is the partial schematic diagram of nozzle and shower nozzle in Figure 16;

Figure 18 is the front view of shower nozzle in Figure 17;

Figure 19 is the D-D cutaway view in Figure 18;

Figure 20 is the perspective view of Figure 15 mesopore bridge insert;

Figure 21 is the perspective view of ring bridge insert in Figure 15;

Wherein: 1 is the bulk cargo constant feeder, and 101 is hopper, and 102 is charging aperture, 103 is pocket-wheel, and 1031 is closure plate, and 1032 is support plate, 1033 is groove, and 1034 is frid, and 1035 are the bending edge, 104 is gyroaxis, and 105 is shaft coupling, and 106 is switching support, 107 is buncher, and 108 is discharging opening, and 109 is lower bracket, 110 is the first cylindrical shell, and 111 is clutch shaft bearing, and 112 is the clutch shaft bearing seat;

2 is bulk cargo and liquid mixing conveyer, 201 is the first belt pulley, 202 is roll shaft, 203 is the second bearing block, 204 is the second bearing, 205 is end cap, 206 is the second cylindrical shell, 207 is the first material receiving port, 208 is helical blade, 209 is anterior spike-tooth, 210 is anterior ball valve, 211 is anterior inlet, 212 is the rear portion inlet, 213 is the rear portion ball valve, 214 is the rear portion spike-tooth, 215 is the first support, 216 is discharge gate, 217 is contact-making surface, 218 is interarea, 219 is minor face, 220 is belt, 221 is the second belt pulley, 222 is frequency control motor, E is anterior spike-tooth section, F is rear portion spike-tooth section,

3 is slurry and the continuous mixing conveyor of liquid, 301 is variable pump, 302 is flexible pipe, 303 is steel pipe, 304 is the second support, 305 is elbow, 306 is flange, 307 is the 3rd cylindrical shell, 308 is the playpipe assembly, 309 is shower nozzle, 310 is nozzle, 311 is valve rod, 312 is valve head, 313 is return spring, 314 is the hole bridge insert, 315 are the ring bridge insert, 316 are outlet, 317 is bracing frame, 318 is playpipe, 319 is micropore, 320 is the first through hole, 321 is the second through hole, 322 is third through-hole, 323 is fourth hole, 324 is projection, 325 is cavity,

4 is the quantitative water supply device, and 401 is water pump, and 402 is waterpipe, and 403 is water tank, and 404 is magnetic valve, and 405 is microswitch, and 406 is the first flow meter;

5 is stock transfer mechanism, and 501 is mashing pump, and 502 is the second flowmeter, and 503 is slurry box, and 504 is slurry pipeline, and 505 is the second material receiving port;

6 is control system, and 7 is frame.

The specific embodiment

The utility model is described in further detail below in conjunction with accompanying drawing.

The utility model comprises bulk cargo constant feeder 1, bulk cargo and the continuous mixing conveyor 3 of liquid mixing conveyer 2, slurry and liquid, quantitative water supply device 4, stock transfer mechanism 5, control system 6 and frame 7, wherein quantitative water supply device 4, stock transfer mechanism 5 and control system 6 are arranged on respectively on frame 7, bulk cargo is arranged on the housing of control system 6 with liquid mixing conveyer 2, and 1 of bulk cargo constant feeder is arranged on the feed end of bulk cargo and liquid mixing conveyer 2.

As Fig. 1, Fig. 2 and shown in Figure 3, bulk cargo constant feeder 1 comprises hopper 101, pocket-wheel 103, gyroaxis 104, switching support 106, buncher 107 and the first cylindrical shell 110, wherein the first cylindrical shell 110 is arranged on switching support 106, be connected with lower bracket 109 in the bottom of the first cylindrical shell 110, bulk cargo constant feeder 1 integral body can be fixed in by lower bracket 109 feed end of bulk cargo and liquid mixing conveyer 2.Upper end and lower end at the first cylindrical shell 110 have charging aperture 102 and discharging opening 108, and described hopper 101 is arranged on the first cylindrical shell 110, be positioned at the top of charging aperture 102.The both sides of the first cylindrical shell 110 are connected with clutch shaft bearing seat 112 with bolt respectively, the clutch shaft bearing seat 112 at two ends and the first cylindrical shell 110 form accommodation space, gyroaxis 104 passes the first cylindrical shell 110 along the center line of the first cylindrical shell 110, the two ends of gyroaxis 104 are rotatably installed on clutch shaft bearing seat 112 by clutch shaft bearing 111 respectively, and the longitudinal center line conllinear of the longitudinal center line of gyroaxis 104 and the first cylindrical shell 110; One end of gyroaxis 104 is passed by the clutch shaft bearing seat 112 of this side, and be connected with the output shaft of buncher 107 on being fixed on switching support 106 by shaft coupling 105, buncher 107 is electrically connected to control system 6 (prior art), and the pocket-wheel 103 with gyroaxis 104 interlocks is installed on the gyroaxis 104 in the first cylindrical shell 110; Buncher 107 drives by the instruction running of control system 6 pocket-wheel 103 rotations that are arranged on gyroaxis 104 by shaft coupling 105 and gyroaxis 104.

As shown in Fig. 4～7, described pocket-wheel 103 is contained in described accommodation space, comprises closure plate 1031, support plate 1032 and frid 1034, and wherein closure plate 1031 is two, the two ends that lay respectively at the first cylindrical shell 110 are inner, and closure plate 1031 and the first cylindrical shell 110 are matched in clearance; Described gyroaxis 104 passes from the center of two closure plates 1031, two closure plates 1031 all are welded on gyroaxis 104, be welded with at least one support plate 1032 (the present embodiment is two support plates) on the gyroaxis 104 between two closure plates 1031, the edge of this support plate 1032 is along circumferentially evenly having a plurality of grooves 1033 (the present embodiment is six), groove 1033 takes the shape of the letter U, the interior identical frid of bucket capacity 1034 that all is equipped with of each groove 1033.

As Fig. 8, shown in Figure 9, frid 1034 is arc, and one lateral edges outward forms the bending be welded on support plate 1032 along 1035, and the opposite side edge joint weld of frid 1034 is connected on support plate 1032, and with the bending of adjacent frid along connecting; Described bending is along 1035 being arc, and the curvature of its arc is identical with the curvature of the first cylindrical shell 110; Each frid 1034 all quantitatively connects material by charging aperture 102, is more quantitatively discharged by gyroaxis 104 driven rotary to discharging opening 108.

As shown in figure 10, bulk cargo comprises roll shaft 202, end cap 205, the second cylindrical shell 206, helical blade 208, spike-tooth and the first support 215 with liquid mixing conveyer 2, the casing that is wherein surrounded by the affixed end cap 205 of the second cylindrical shell 206 and two ends thereof is supported by the first support 215, and be fixed on the housing of control system 6 by the first support 215, all be connected with the second bearing block 203 on the outer surface of two ends end cap 205; Roll shaft 202 is positioned at the second cylindrical shell 206, the two ends of roll shaft 202 are arranged on the end cap 205 at the second cylindrical shell 206 two ends by the second bearing 204 respectively, roll shaft 202 is contained in the second bearing block 203 of this end near an end of discharge gate 216, roll shaft 202 passes near in second bearing block 203 of the other end by this end of the first material receiving port 207, and be connected with power source by transmission device, drive rotation by power source; Transmission device is belt pulley and belt, power source is the frequency control motor 222 that is electrically connected to control system 6, the other end of roll shaft 202 passes the second bearing block 203 and is connected with the first belt pulley 201 by screw, this first belt pulley 201 is connected with the second belt pulley 221 on frequency control motor 222 output shafts by belt 220, is rotated by frequency control motor 222 drive roller shaft 202.

The two ends of the second cylindrical shell 206 have opening up the first material receiving port 207 and downward opening discharge gate 216, the integral body of bulk cargo constant feeder 1 is fixed on the first material receiver 207 places by lower bracket 109, discharging opening 108 be positioned at the first material receiving port 207 directly over; To discharge gate 216, helical blade 208 and a plurality of spike-tooth are installed successively by the first material receiving port 207 on roll shaft 202 in the second cylindrical shell 206, helical blade 208 is positioned at the below of the first material receiving port 207.Spike-tooth is divided into anterior spike-tooth 209 and rear portion spike-tooth 214, be arranged in the shape of a spiral on roll shaft 202, be provided with a plurality of anterior spike-tooths 209 and a plurality of rear portions spike-tooth 214 on the roll shaft 202 of the present embodiment, the lead angle of rear portion spike-tooth 214 is greater than the lead angle of anterior spike-tooth 209; The part of corresponding the second cylindrical shell 206 of anterior spike-tooth 209 is anterior spike-tooth section E, the part of corresponding the second cylindrical shell 206 of rear portion spike-tooth 214 is rear portion spike-tooth section F, the anterior inlet 211 (the present embodiment is provided with two anterior inlets 211) of at least one filling liquid in the anterior spike-tooth section E is installed on the second cylindrical shell 206 of anterior spike-tooth section E, and each anterior inlet 211 is equipped with anterior ball valve 210; The rear portion inlet 212 (the present embodiment is provided with a rear portion inlet 212) of at least one filling liquid in the spike-tooth section F of rear portion is installed on the second cylindrical shell 206 of rear portion spike-tooth section F, and each rear portion inlet 212 is equipped with rear portion ball valve 213.

As shown in Figure 11～14, anterior spike-tooth 209 is identical with rear portion spike-tooth 214 shape and structures, be all the structure of " L " shape for the end face that is formed by two boards, anterior spike-tooth 209 is cambered surface with the contact-making surface 217 that rear portion spike-tooth 214 contacts with roll shaft 202, and the radian of contact-making surface 217 is identical with the radian of roll shaft 202; Two boards tilts with roll shaft 202 respectively, so that mixed bulk cargo and liquid are carried backward; Wherein, the plate that area is larger is arc.

The utility model can be water by the liquid that anterior inlet 211 and rear portion inlet 212 inject.

As shown in figure 15, the continuous mixing conveyor 3 of slurry and liquid comprises the 3rd cylindrical shell 307, playpipe assembly 308, shower nozzle 309, nozzle 310, hole bridge insert 314, ring bridge insert 315 and bracing frame 317, wherein an end of the 3rd cylindrical shell 307 is communicated with slurry box 503 in stock transfer mechanism 5 by elbow 305, the two ends of elbow 305 are respectively equipped with flange 306, and affixed with an end and the slurry box 503 of the 3rd cylindrical shell 307 respectively by flange 306, the other end of the 3rd cylindrical shell 307 is connected with the outlet(discharge) flange of band outlet 316.

The 3rd cylindrical shell 307 is hollow structure, and playpipe assembly 308 vertically is plugged on the 3rd cylindrical shell 307.As shown in Figure 16～19, playpipe assembly 308 comprises playpipe 318 and valve rod 311, wherein playpipe 318 vertically is plugged on the 3rd cylindrical shell 307, has the second through hole 321 in the middle of playpipe 318, and the longitudinal center line of this second through hole 321 is perpendicular to the longitudinal center line of the 3rd cylindrical shell 307; One end of playpipe 318 is communicated with variable pump 301 by tube connector, and the other end is threaded and controls the valve rod 311 of medicinal liquid flow; The axial cross section of this valve rod 311 is "T"-shaped, is inserted by the second through hole 321.Tube connector comprises flexible pipe 302 and steel pipe 303, and wherein steel pipe 303 is fixed on elbow 305 by the second support 304; One end of flexible pipe 302 is connected with variable pump 301, and the other end is connected with an end of steel pipe 303, and the other end of steel pipe 303 is connected to an end of playpipe 318.

Nozzle 310 is fixed on the playpipe 318 that is positioned at the 3rd cylindrical shell 307, and the longitudinal center line that has the first through hole 320, the first through holes 320 of being connected with the second through hole 321 and the second through hole 321 on nozzle 310 is perpendicular.One end of shower nozzle 309 is fixed on nozzle 310, and the center of the other end has third through-hole 322, the longitudinal center line conllinear of the longitudinal center line of this third through-hole 322 and the first through hole 320; Be evenly equipped with a plurality of micropores 319 around third through-hole 322.Be provided with cavity 325 in the inside of shower nozzle 309, an end of this cavity 325 is communicated with the first through hole 320 on nozzle 310, and the other end is communicated with third through-hole 322 and each micropore 319.

The axial cross section of valve head 312 is " work " font, one end of " work " font is positioned at cavity 325, the other end passes outside rear, that be positioned at shower nozzle 309 from third through-hole 322, sheathed return spring 313 on the valve head 312 that is positioned at cavity 325 inside, the two ends of this return spring 313 are connected to respectively on an end and shower nozzle 309 of valve head 312; Valve head 312 can move back and forth vertically, by the switch of controlling the micropore 319 of offering on shower nozzle 309 that moves back and forth of valve head 312; The size of valve head 312 other ends will guarantee third through-hole 322 and each micropore 319 are all covered in.

Bracing frame 317 is positioned at the 3rd cylindrical shell 307, is interval with hole bridge insert 314 and ring bridge insert 315 on bracing frame 317.As shown in figure 20, hole bridge insert 314 is annular, has fourth hole 323 in the middle of it.As shown in figure 21, ring bridge insert 315 is disk, and the edge of disk forms projection 324 along circumferentially being evenly equipped with a plurality of arc gap between each arc gap.Enter slurry and the liquid limit pump into the 3rd cylindrical shell 307 by variable pump 301 in the 3rd cylindrical shell 307 by slurry box 503 and evenly mix the limit successively through the gap (being the position of arc gap) between the fourth hole 323 on via hole bridge insert 314 and ring bridge insert 315 and the 3rd cylindrical shell 307 inwalls, export by exporting 316 at last.

as Fig. 1, shown in Figure 2, quantitative water supply device 4 comprises water pump 401, waterpipe 402, water tank 403, magnetic valve 404, microswitch 405 and first flow meter 406, water tank 403 is fixed on frame 7, water pump 401 is arranged on water tank 403, and be electrically connected to control system 6, one end of described waterpipe 402 is communicated with water pump 401, the other end is connected with rear portion inlet 212 with anterior inlet 211 on liquid mixing conveyer 2 with bulk cargo respectively, be respectively arranged with the magnetic valve 404 that is electrically connected to control system 6 on waterpipe 402, microswitch 405 and first flow meter 406.

As shown in Figure 1 and Figure 2, stock transfer mechanism 5 comprises mashing pump 501, the second flowmeter 502, slurry box 503 and slurry pipeline 504, slurry box 503 is fixed on frame 7, have the second material receiving port 505 on slurry box 503, this second material receiving port 505 is arranged in the below of bulk cargo and liquid mixing conveyer 2 discharge gates 216; Described mashing pump 501 is fixed on slurry box 503 and with control system 6 and is electrically connected to, one end of described slurry pipeline 504 is communicated with mashing pump 501, the other end is connected with the 3rd cylindrical shell 307 in the continuous mixing conveyor 3 of slurry and liquid, is provided with the second flowmeter 502 that is electrically connected to control system 6 on slurry pipeline 504.

Operation principle of the present utility model is:

Utilize the bucket capacity of the frid 1034 of the speed change characteristic of buncher 107 and pocket-wheel 103 to realize continuous dosing of very, buncher 107 work, instruction running by control system 6 drives gyroaxis 104 by shaft coupling 105 and rotates continuously, and then drives each frid 1034 rotations.Each frid 1034 is receiving quantitative bulk cargo when the charging aperture 102, and then rotates to discharging opening 108, realize bulk cargo constant feeder 1 will quantitative bulk cargo from discharging opening 108 discharges, enter bulk cargo and liquid mixing conveyer 2.

Frequency control motor 222 drives the first belt pulley 201 by belt 220 and rotates, and then 202 rotations of band action roller shaft; Bulk cargo by 1 output of bulk cargo constant feeder falls through the first material receiving port 207, and the helical blade 208 that is arranged on roll shaft 202 is pushed into anterior spike-tooth section E with bulk cargo; Control system 6 is controlled water pump 401 work, anterior inlet 211 with the water in water tank 403 from the second cylindrical shell 206 injects the anterior spike-tooth section E of the second cylindrical shell 206, anterior spike-tooth 209 on roll shaft 202 is with roll shaft 202 rotations, the helicoid that forms during anterior spike-tooth 209 work, bulk cargo and water are mixed into semisolid, simultaneously semisolid is impacted, and be advanced to rear portion spike-tooth section F to the rear portion; In the spike-tooth section F of rear portion, the interarea 218 of rear portion spike-tooth 214 forms helicoid to be mixed the water that rear portion inlet 212 semi-solid and from the second cylindrical shell 206 injects and carry to the direction of discharge gate 216, the helicoid that 219 formation of the minor face of rear portion spike-tooth 214 are opposite with interarea 218 mixes semisolid and water and forms stream to interarea 218 and carries in the opposite direction; The flow direction of two kinds of opposite directions forms turbulent flow and strengthens mixing of semi-solid and water in the second cylindrical shell 206; The interarea 218 of rear portion spike-tooth 214 and the area difference of minor face 219 make the slurry in mixing carry to the direction of discharge gate 216, discharge the second cylindrical shell 206 by discharge gate 216, enter slurry box 503 by the second material receiving port 505.

Mashing pump 501 with slurry by 305 entering in the 3rd cylindrical shell 307 along slurry pipeline 504 from elbow in slurry box 503, liquid then is entered in the cavity 325 of shower nozzle 309 by the first through hole 320 on nozzle 310 in variable pump 301, flexible pipe 302, steel pipe 303 enter the second through hole 321 on playpipe 318; In the process that liquid is flowed to the first through hole 320 by the second through hole 321, can control the medicinal liquid flow that flows to the first through hole 320 by moving up and down of valve rod 311.Liquid forms high pressure in shower nozzle 309, the jet promotion valve head 312 that forms along a plurality of micropores 319 ejections on shower nozzle 309 outboard end outwards moves, and is formed and the valve head 312 parallel plane medical liquid jet faces of other end end plate by the retardance of the end plate of valve head 312 other ends, this medical liquid jet face tentatively mixes with slurry from elbow 305.The preliminary slurry that mixes and liquid be the gap between the fourth hole 323 on via hole bridge insert 314 and ring bridge insert 315 and the 3rd cylindrical shell 307 inwalls successively, and repeatedly mixed homogeneous mixture flows out from exporting 316, is injected in pattern.

When liquid stopped supplying, the slurry pressure in the 3rd cylindrical shell 307 and return spring 313 actings in conjunction promoted valve heads 312 and move back, and cover in the micropore 319 of shower nozzle 309 outer ends, prevented that effectively micropore 319 from stopping up.

The bracing frame 317 of the continuous mixing conveyor 3 of slurry and liquid and on hole bridge insert 314 and ring bridge insert 315 can be fixed in the 3rd cylindrical shell 307, also can be placed in the 3rd cylindrical shell 307, cylindrical shell 307 is interior when mixing the 3rd when slurry and liquid, bracing frame 317 can be pushed to the outlet(discharge) flange of the 3rd cylindrical shell 307 other ends, the pressure that bracing frame 317 is subject to is not moved it.

Claims (10)

1. continuous mixing conveyer that is used for the light insulating body of wall, it is characterized in that: comprise bulk cargo constant feeder (1), bulk cargo and liquid mixing conveyer (2), slurry and the continuous mixing conveyor of liquid (3), quantitative water supply device (4), stock transfer mechanism (5), control system (6) and frame (7), wherein

Bulk cargo constant feeder (1) is arranged on the feed end of bulk cargo and liquid mixing conveyer (2), comprise hopper (101), pocket-wheel (103), gyroaxis (104), switching support (106), buncher (107) and the first cylindrical shell (110), the first cylindrical shell (110) is arranged on switching support (106), upper end and lower end at the first cylindrical shell (110) have charging aperture (102) and discharging opening (108), and described hopper (101) is arranged on the top that the first cylindrical shell (110) is upper, be positioned at charging aperture (102); Described the first cylindrical shell (110) inside is provided with accommodation space, and gyroaxis (104) is rotatably installed on described the first cylindrical shell (110), and an end of gyroaxis (104) is connected with the output shaft of buncher (107) on being arranged on switching support (106); Described pocket-wheel (103) is placed in described accommodation space, be arranged on gyroaxis (104), with gyroaxis (104) interlock, this pocket-wheel (103) is provided with the identical frid of a plurality of bucket capacities (1034), each frid (1034) all quantitatively connects material by charging aperture (102), is more quantitatively discharged by gyroaxis (104) driven rotary to discharging opening (108);

Bulk cargo comprises roll shaft (202), end cap (205), the second cylindrical shell (206), helical blade (208), spike-tooth and the first support (215) with liquid mixing conveyer (2), the casing that is surrounded by the second cylindrical shell (206) and two ends end cap (205) thereof is arranged on frame (7) by the first support (215), described roll shaft (202) is rotatably installed on two ends end cap (205), one end of roll shaft (202) is connected with power source by transmission device, is rotated by power source drive roller shaft (202); The two ends of described the second cylindrical shell (206) have the first material receiving port (207) and discharge gate (216), this the first material receiving port (207) is positioned at the below of described discharging opening (108), and the roll shaft (202) in the second cylindrical shell (206) is upper is equipped with helical blade (208) and a plurality of spike-tooth by the first material receiving port (207) successively to discharge gate (216); Described helical blade (208) is positioned at the below of the first material receiving port (207), spike-tooth is arranged on roll shaft (202) in the shape of a spiral, be provided with the inlet with ball valve on the second cylindrical shell (206), this inlet is connected with quantitative water supply device (4) on being arranged on frame (7); The bulk cargo that is fallen by described the first material receiving port (207) is delivered to the bottom of inlet by the helical blade (208) with roll shaft (202) rotation, injected the liquid of inlet by quantitative water supply device (4) by carrying to discharge gate (216) with each mix and blend limit, spike-tooth limit of roll shaft (202) rotation;

the continuous mixing conveyor of slurry and liquid (3) comprises the 3rd cylindrical shell (307), playpipe assembly (308), shower nozzle (309), nozzle (310), hole bridge insert (314), ring bridge insert (315) and bracing frame (317), one end of the 3rd cylindrical shell (307) be arranged on frame (7) on stock transfer mechanism (5) in slurry box (503) be connected, the other end of the 3rd cylindrical shell (307) is provided with outlet (316), described playpipe assembly (308) is plugged on the 3rd cylindrical shell (307), nozzle (310) is arranged on the playpipe assembly (308) that is positioned at the 3rd cylindrical shell (307) successively with shower nozzle (309), this playpipe assembly (308) is communicated with variable pump (301) by tube connector, described shower nozzle (309) is provided with the valve head (312) that moves back and forth vertically, by the switch of controlling the micropore (319) of offering on shower nozzle (309) that moves back and forth of valve head (312), support frame as described above (317) is positioned at the 3rd cylindrical shell (307), be interval with hole bridge insert (314) and ring bridge insert (315) on bracing frame (317), second material receiving port (505) of described slurry box (503) is positioned at the below of described discharge gate (216), enter the slurry liquid limit interior with pump into the 3rd cylindrical shell (307) by variable pump (301) in the 3rd cylindrical shell (307) by described slurry box (503) and evenly mix the limit successively through the through hole on via hole bridge insert (314) and encircle gap between bridge insert (315) and the 3rd cylindrical shell (307) inwall, by outlet (316) output,

Described buncher (107), power source, quantitative water supply device (4) and stock transfer mechanism (5) respectively be arranged on frame (7) on control system (6) be electrically connected to.

2. by the described continuous mixing conveyer for the light insulating body of wall of claim 1, it is characterized in that: described pocket-wheel (103) comprises closure plate (1031), support plate (1032) and frid (1034), wherein closure plate (1031) is two, and the two ends that lay respectively at described the first cylindrical shell (110) are inner; Described gyroaxis (104) passes from the center of two closure plates (1031),

Be provided with the support plate (1032) of interlock on the gyroaxis (104) between two closure plates (1031), the edge of this support plate (1032) all is equipped with the identical frid of bucket capacity (1034) along circumferentially evenly being provided with a plurality of grooves (1033) in each groove (1033).

3. by the described continuous mixing conveyer for the light insulating body of wall of claim 2, it is characterized in that: described frid (1034) is arc, one lateral edges outward forms the bending edge (1035) that is welded on support plate (1032), the opposite side edge joint weld of frid (1034) is connected on support plate (1032), and connects along (1035) with the bending of adjacent frid; Described bending is arc along (1035), and the curvature of its arc is identical with the curvature of the first cylindrical shell (110); Described closure plate (1031) is matched in clearance with the first cylindrical shell (110).

4. by the described continuous mixing conveyer for the light insulating body of wall of claim 1, it is characterized in that: described spike-tooth is divided into anterior spike-tooth (209) and rear portion spike-tooth (214), is respectively equipped with the inlet with ball valve on second cylindrical shell (206) of described anterior spike-tooth (209) and rear portion spike-tooth (214) correspondence; The part of corresponding the second cylindrical shell of described anterior spike-tooth (209) (206) is anterior spike-tooth section (E), the part of corresponding the second cylindrical shell of rear portion spike-tooth (214) (206) is rear portion spike-tooth section (F), at least one is installed to the anterior inlet (211) of the middle filling liquid of anterior spike-tooth section (E) on second cylindrical shell (206) of anterior spike-tooth section (E)

Each anterior inlet (211) is equipped with anterior ball valve (210); At least one is installed to the rear portion inlet (212) of the middle filling liquid of rear portion spike-tooth section (F) on second cylindrical shell (206) of described rear portion spike-tooth section (F), each rear portion inlet (212) is equipped with rear portion ball valve (213), and described anterior inlet (211) and rear portion inlet (212) are connected with quantitative water supply device (4) respectively.

5. by the described continuous mixing conveyer for the light insulating body of wall of claim 4, it is characterized in that: described anterior spike-tooth (209) is identical with rear portion spike-tooth (214) shape and structure, all be the structure of " L " shape for be made of end face two boards, the contact-making surface (217) that wherein contacts with roll shaft (202) is cambered surface; The radian of described contact-making surface (217) is identical with the radian of roll shaft (202); Described two boards tilts with roll shaft (202) respectively, and the plate that wherein area is larger is arc; The lead angle of described rear portion spike-tooth (214) is greater than the lead angle of anterior spike-tooth (209).

6. by the described continuous mixing conveyer for the light insulating body of wall of claim 1, it is characterized in that: described playpipe assembly (308) comprises playpipe (318) and valve rod (311), wherein playpipe (318) is plugged on the 3rd cylindrical shell (307), have the second through hole (321) in the middle of playpipe (318), one end of described playpipe (318) is communicated with variable pump (301) by tube connector, and the other end is threaded and controls the valve rod (311) of medicinal liquid flow; Described nozzle (310) is arranged on the playpipe assembly (308) that is positioned at the 3rd cylindrical shell (307), has the first through hole (320) that is connected with described the second through hole (321) on nozzle (310); The longitudinal center line of the longitudinal center line of described the second through hole (321) and the 3rd cylindrical shell (307) is perpendicular, and the first through hole (320) is perpendicular with the longitudinal center line of the second through hole (321).

7. by the described continuous mixing conveyer for the light insulating body of wall of claim 1, it is characterized in that: an end of described shower nozzle (309) is connected with nozzle (310), the other end has third through-hole (322), be evenly equipped with a plurality of micropores (319) around third through-hole (322), be provided with cavity (325) in the inside of shower nozzle (309); Described valve head (312) passes from third through-hole (322), at the upper cover of valve head (312), return spring (313) is arranged; The axial cross section of described valve head (312) is " work " font, one end of " work " font is positioned at cavity (325), the other end is positioned at outside shower nozzle (309), be positioned at the upper sheathed described return spring (313) of the inner valve head (312) of cavity (325), the two ends of this return spring (313) are connected to respectively on an end and shower nozzle (309) of valve head (312).

8. by the described continuous mixing conveyer for the light insulating body of wall of claim 1, it is characterized in that: described hole bridge insert (314) is annular, has fourth hole (323) in the middle of it; Described ring bridge insert (315) is disk, and the edge of disk forms projection (324) along circumferentially being evenly equipped with a plurality of arc gap between each arc gap; One end of described the 3rd cylindrical shell (307) is connected with slurry box (503) by elbow (305), described tube connector comprises flexible pipe (302) and steel pipe (303), wherein steel pipe (303) is fixed on elbow (305) by support (304), one end of described flexible pipe (302) is connected with variable pump (301), the other end is connected with an end of steel pipe (303), and the other end of steel pipe (303) is connected to playpipe assembly (308).

9. by the described continuous mixing conveyer for the light insulating body of wall of claim 1, it is characterized in that: described quantitative water supply device (4) comprises water pump (401), waterpipe (402), water tank (403), magnetic valve (404), microswitch (405) and first flow meter (406), wherein water tank (403) is arranged on frame (7), water pump (401) is positioned on water tank (403), and be electrically connected to control system (6), one end of described waterpipe (402) is communicated with water pump (401), the other end and bulk cargo are connected with inlet on liquid mixing conveyer (2), be respectively arranged with the magnetic valve (404) that is electrically connected to control system (6) on waterpipe (402), microswitch (405) and first flow meter (406).

10. by the described continuous mixing conveyer for the light insulating body of wall of claim 1, it is characterized in that: described stock transfer mechanism (5) comprises mashing pump (501), the second flowmeter (502), slurry box (503) and slurry pipeline (504), wherein slurry box (503) is arranged on frame (7), have the second material receiving port (505) on slurry box (503), this second material receiving port (505) is arranged in the below of bulk cargo and liquid mixing conveyer (2) discharge gate (216); Described mashing pump (501) is positioned at slurry box (503) upward and is electrically connected to control system (6), one end of described slurry pipeline (504) is communicated with mashing pump (501), the other end is connected with the 3rd cylindrical shell (307) in the continuous mixing conveyor of slurry and liquid (3), is provided with the second flowmeter (502) that is electrically connected to control system (6) on slurry pipeline (504).

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