CN212942731U - Novel high-viscosity material mixer - Google Patents

Abstract

The utility model discloses a novel high-viscosity material mixer in the field of mixers, which comprises a casing, wherein a stirring main shaft is rotatably arranged in the casing, the stirring main shaft is in transmission connection with a rotary driving mechanism, the stirring main shaft is parallel to the length direction of the mixer, a stirring assembly is arranged on the stirring main shaft, at least two groups of fly cutter scattering mechanisms are arranged on the side surface of the casing, each fly cutter scattering mechanism comprises a driving assembly and a fly cutter assembly, the driving assembly is arranged outside the casing, and the fly cutter assemblies extend into the casing; the casing side still is provided with on-line measuring sampling mechanism, and on-line measuring sampling mechanism is linked together with the casing is inside, and the chassis bottom is provided with the discharge gate, and the casing below corresponds the discharge gate and is provided with the unloading chamber, and on-line measuring sampling mechanism and fly sword break up the lower part that the mechanism all set up at the casing side and be close to the unloading chamber. The utility model discloses can break up the material and cut the breakage to carry out on-line measuring to the mixed degree of material.

Description

Novel high-viscosity material mixer

Technical Field

The utility model belongs to mix the machine field, in particular to novel high viscosity material mixes machine.

Background

The mixer is a mechanical device for uniformly mixing two or more materials by using mechanical force, gravity and the like. In the food manufacturing process, the mixer is more and more widely used, after materials enter a mixing chamber of the mixer, a main shaft rotates, blades rotate to mix the materials, and the mixer is usually used for mixing and stirring powder materials.

In the prior art, the main structure of the mixer comprises a casing, a rotatable main shaft is arranged in the casing, and a plurality of stirring blades are arranged on the main shaft. The disadvantages are that: the stirring paddle on the main shaft drives the materials to rotate and stir along the inner wall of the shell, and the stirring paddle arranged on the main shaft cannot break up, cut and crush the materials, so that the cutting and crushing effects are poor, the mixing degree of the materials is influenced, and the materials are not uniformly mixed; and lack on the mixer and carry out the device of taking a sample to the inside material of casing, can not carry out on-line measuring to mixing degree and effect.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a novel high-viscosity material mixer which can break up, cut and crush materials and further improve the mixing degree of the materials; and can sample the inside material of casing, carry out on-line measuring to the degree of mixing and the effect of material, do not influence the normal work of mixing machine.

The purpose of the utility model is realized like this: a novel high-viscosity material mixer comprises a casing, wherein a stirring main shaft is rotatably arranged in the casing and is in transmission connection with a rotary driving mechanism, the stirring main shaft is parallel to the length direction of the mixer, a stirring assembly is arranged on the stirring main shaft, at least two groups of fly cutter scattering mechanisms are sequentially arranged on the side surface of the casing along the length direction, each fly cutter scattering mechanism is staggered with the stirring assembly and comprises a driving assembly and a fly cutter assembly, the driving assembly is arranged on the outer side of the casing, and the fly cutter assembly extends into the casing; the casing side still is provided with on-line measuring sampling mechanism, and on-line measuring sampling mechanism is linked together with the casing is inside, and the chassis bottom is provided with the discharge gate, and the casing below corresponds the discharge gate and is provided with the unloading chamber, and on-line measuring sampling mechanism and fly sword break up the lower part that the mechanism all set up at the casing side and be close to the unloading chamber.

Compared with the prior art, the beneficial effects of the utility model reside in that: the utility model discloses during operation, after the material got into the casing inside, the stirring main shaft stirred the material through stirring subassembly, and the material moved along the casing inner wall, and fly cutter subassembly breaks up and breaks the material, ensures to further improve the degree of mixing of material; the online detection sampling mechanism can sample the materials in the mixer housing in real time, the mixing degree and the effect of the online detection materials are realized, the normal work of the mixer is not influenced, and the detection is more convenient.

As a further improvement of the utility model, the casing comprises two arc-shaped side plates which are correspondingly arranged front and back, the left and right ends of the two side plates are provided with end plates, the top parts of the two side plates are provided with top plates, and the online detection sampling mechanism and the fly cutter scattering mechanism are arranged on the side plates; all around the discharging cavity are provided with cavity side walls.

As the utility model discloses a further improvement, rotary driving mechanism includes main motor, and the casing is stretched out and is connected through reduction gear and main motor looks transmission to the one end of stirring main shaft, and the other end of stirring main shaft stretches out the casing and rotates and support on the support. The main motor drives the stirring main shaft to rotate after being decelerated, and the stirring assembly realizes material stirring.

As a further improvement of the utility model, the driving assembly comprises a mounting connecting seat arranged on the casing, a central hole is axially arranged on the mounting connecting seat, a fly cutter inlet hole is arranged on the casing corresponding to the central hole, a plurality of screw connecting holes I are arranged on the annular end surface of the mounting connecting seat at equal intervals along the circumferential direction, a bearing seat is arranged corresponding to the mounting seat, a rotary cutter shaft is rotatably arranged on the bearing seat, the front end of the rotary cutter shaft extends into the casing, the fly cutter assembly is arranged at the front end of the rotary cutter shaft, a first mounting flange and a second mounting flange are respectively arranged at the front end and the rear end of the bearing seat, the first mounting flange is fixedly connected with the mounting connecting seat through a plurality of first fasteners, the first fasteners extend into the corresponding screw connecting holes I, a direct-connection motor is arranged corresponding to the rear end of the, and a plurality of second threaded connecting holes are formed in the second mounting flange at equal intervals along the circumferential direction, the motor flange is fixedly connected with the second mounting flange through a plurality of second fasteners, the second fasteners extend into the corresponding second threaded connecting holes, and a motor shaft of the direct-connected motor is in transmission connection with the rotary cutter shaft. Fix the bearing frame on erection joint seat, be convenient for install drive assembly, high-speed pivoted rotatory arbor drive flies the sword subassembly and rotates, flies the sword subassembly and breaks up the material and cuts breakage for the material further promotes the mixed effect.

As the utility model discloses a further improvement, the bearing frame is located the integrative section that stretches into that is provided with of front end of mounting flange one, and the bearing frame stretches into in the section inserts the centre bore of erection joint seat, and the bearing frame stretches into the external diameter of section and the centre bore internal diameter phase-match setting of erection joint seat, and the front end fixedly connected with end cover of section is stretched into to the bearing frame, and the through-hole that can hold rotatory arbor and pass is seted up at the end cover middle part, the external diameter of mounting flange one sets up with the external diameter of erection joint seat. When the bearing seat is installed, the extending section of the bearing seat is inserted into the central hole of the installation connecting seat, and then the first installation flange and the installation connecting seat are fixedly connected through the first fastener.

As a further improvement of the present invention, a spacer is sleeved on the rotary cutter shaft passing through the end cover, the rear end of the spacer is attached to and fixedly connected with the end cover, the fly cutter assembly comprises a rectangular seat plate mounted on the rotary cutter shaft, the seat plate is fixedly connected with the spacer, a mounting hole corresponding to the rotary cutter shaft is formed in the middle of the seat plate, two crushing cutters are sequentially arranged on the front side of the seat plate on the rotary cutter shaft along the axial direction, the crushing cutters are U-shaped, each crushing cutter comprises a main body part perpendicular to the rotary cutter shaft, the main body part is in threaded connection with the rotary cutter shaft, side cutter parts are integrally formed on the left side and the right side of the main body part, the length direction of each side cutter part is parallel to the rotary cutter shaft, and the front end of the rotary cutter shaft is in; the included angle of the two crushing cutters along the circumferential direction of the rotary cutter shaft is 90 degrees; the rotary cutter shaft is obliquely arranged, the rotary cutter shaft is perpendicular to the stirring main axis, and the rotary cutter shaft and the stirring main axis are located in the same plane. The clamping sleeve can compress and fix the crushing knives, the main body part and the side knife part of the U-shaped crushing knife rotate simultaneously to break up materials, and the cutting length of the side knife part is increased.

As a further improvement of the utility model, the on-line detection sampling mechanism comprises a cylindrical mounting seat which is obliquely arranged on the side surface of the machine shell, a central seat hole is axially arranged on the mounting seat, the detection sampling cylinder is correspondingly and axially inserted into the central seat hole of the mounting seat, a detection inlet is arranged on the casing corresponding to the detection sampling cylinder, the periphery of the detection sampling cylinder is attached to the central seat hole wall of the mounting seat, the outward end part of the mounting seat is provided with a reinforcing flange which is fixedly connected with the detection sampling cylinder through a plurality of fasteners III which are uniformly distributed at intervals along the circumferential direction, the integrative discharging pipe that is provided with vertical downwardly extending of detection sampler barrel downside, the discharging pipe is inside to be linked together with the detection sampler barrel, and the other end correspondence of detecting the sampler barrel is provided with the cylinder, and in the piston rod correspondence of cylinder stretched into the detection sampler barrel, the tailpiece of the piston rod portion of cylinder was provided with flexible material end cap of getting. When the mixing machine mixes materials, a piston rod of the air cylinder is in an extending state, and the detection inlet is blocked by the telescopic material taking plug; mix a period of time after, need carry out the sample detection to the material in the casing, the piston rod of cylinder contracts backward for flexible material end cap of getting moves the rear end that detects the sampling tube, and the material gets into through detecting the inlet port and detects the sampling tube, discharges from the discharging pipe again, then can carry out on-line measuring to the material of taking out.

As a further improvement of the utility model, the other end of the detection sampling cylinder is provided with a first connecting seat plate, the front end of the air cylinder is provided with a second connecting seat plate corresponding to the first connecting seat plate, and the second connecting seat plate is fixedly connected with the first connecting seat plate; one end of the detection sampling cylinder, which is inserted into the mounting seat, is arranged corresponding to the casing, and when the mixer works, the detection inlet is blocked by the telescopic material taking plug; during sampling, the telescopic material taking plug retracts backwards to open the detection inlet. When the air cylinder is installed, the piston rod is correspondingly inserted into the detection sampling cylinder, and the connecting seat plate II is fixed with the connecting seat plate I by using the fastener, so that the installation is convenient.

As the utility model discloses a further improvement, the stirring main shaft is mutually perpendicular with detecting the sampler barrel axis, detects the sampler barrel axis and is located the coplanar with the stirring main axis.

Drawings

Fig. 1 is a three-dimensional structure diagram of the present invention.

Fig. 2 is a front view of fig. 1.

Fig. 3 is a top view of fig. 1.

FIG. 4 is a cross-sectional view of an on-line test sampling mechanism on a mixing machine.

Fig. 5 is a partially enlarged view of fig. 4.

Fig. 6 is a perspective view of the cylinder.

FIG. 7 is a cross-sectional view of a fly-blade break-up mechanism on a blender.

Fig. 8 is a partially enlarged view of fig. 7.

Fig. 9 is a perspective view of the fly cutter scattering mechanism.

Fig. 10 is a perspective view of the fly cutter scattering mechanism.

Wherein, 1a shell, 1a side plate, 1B end plate, 1c top plate, 2 stirring main shaft, 3 stirring component, 4 discharging cavity, 4a cavity side wall, A fly cutter scattering mechanism, B online detection sampling mechanism, 5 installation connecting seat, 5a center hole, 6 fly cutter inlet hole, 7 screw thread connecting hole I, 8 bearing seat, 801 extending section, 8a installation flange I, 8B installation flange II, 9 rotating cutter shaft, 10 direct connection motor, 10a motor flange, 11 screw thread connecting hole II, 12 fastener II, 13 end cover, 14 spacer bush, 15 seat plate, 16 crushing cutter, 16a main body part, 16B side cutter part, 17 clamping sleeve, 18 bearing, 19 fastener I, 20 main motor, 21 reducer, 22 support, 23 installation seat, 23a center seat hole, 24 detection inlet, 25 reinforcing flange, 26 discharge pipe, 27, 28 cylinder, 28a telescopic plug, the first connecting seat plate 29, the second connecting seat plate 30 and the detection sampling cylinder 31.

Detailed Description

As shown in fig. 1-10, a novel high-viscosity material mixer is provided, which includes a casing 1, a stirring spindle 2 is rotatably disposed inside the casing 1, the stirring spindle 2 is in transmission connection with a rotary driving mechanism, the rotary driving mechanism includes a main motor 20, one end of the stirring spindle 2 extends out of the casing 1 and is in transmission connection with the main motor 20 through a speed reducer 21, and the other end of the stirring spindle 2 extends out of the casing 1 and is rotatably supported on a support 22; the stirring main shaft 2 is parallel to the length direction of the mixer, the stirring main shaft 2 is provided with a stirring assembly 3, the side surface of the machine shell 1 is sequentially provided with at least two groups of fly cutter scattering mechanisms A along the length direction, each fly cutter scattering mechanism A is staggered with the stirring assembly 3, each fly cutter scattering mechanism A comprises a driving assembly and a fly cutter assembly, the driving assembly is arranged on the outer side of the machine shell 1, and the fly cutter assemblies extend into the machine shell 1; the side of the casing 1 is also provided with an online detection sampling mechanism B, the online detection sampling mechanism B is communicated with the inside of the casing 1, the bottom of the casing 1 is provided with a discharge port, a discharge cavity 4 is arranged below the casing 1 corresponding to the discharge port, and the online detection sampling mechanism B and the fly cutter scattering mechanism A are both arranged on the side of the casing 1 and close to the lower part of the discharge cavity 4. The machine shell 1 comprises two arc-shaped side plates 1a which are arranged in a front-back corresponding mode, end plates 1B are arranged at the left end and the right end of each of the two side plates 1a, top plates 1c are arranged at the tops of the two side plates 1a, and an online detection sampling mechanism B and a fly cutter scattering mechanism A are arranged on the side plates 1 a; the periphery of the discharging cavity 4 is provided with a cavity side wall 4 a.

The driving assembly comprises a mounting and connecting seat 5 arranged on a machine shell 1, a central hole 5a is axially arranged on the mounting and connecting seat 5, a fly cutter inlet hole 6 is arranged on the machine shell 1 corresponding to the central hole 5a in a penetrating way, a plurality of threaded connecting holes 7 are arranged on the annular end surface of the mounting and connecting seat 5 at equal intervals along the circumferential direction, a bearing seat 8 is arranged corresponding to a mounting seat 23, a rotary cutter shaft 9 is rotatably arranged on the bearing seat 8 through a bearing 18, the front end of the rotary cutter shaft 9 extends into the machine shell 1, the fly cutter assembly is arranged at the front end of the rotary cutter shaft 9, a mounting flange 8a and a mounting flange two 8b are respectively arranged at the front end and the rear end of the bearing seat 8, the mounting flange 8a is fixedly connected with the mounting and connecting seat 5 through a plurality of fasteners 19, the fasteners 19 extend into the corresponding threaded connecting holes, the end part of the direct connection motor 10 is provided with a motor flange 10a, the mounting flange II 8b is provided with a plurality of threaded connection holes II 11 at equal intervals along the circumferential direction, the motor flange 10a is fixedly connected with the mounting flange II 8b through a plurality of fasteners II 12, the fasteners II 12 extend into the corresponding threaded connection holes II 11, and a motor shaft of the direct connection motor 10 is in transmission connection with the rotary cutter shaft 9. The bearing frame 8 is located that the front end of an installation flange 8a is integrative to be provided with stretches into section 801, bearing frame 8 stretches into section 801 and inserts in the centre bore 5a of erection joint seat 5, the external diameter that bearing frame 8 stretched into section 801 sets up with the internal diameter phase-match of the centre bore 5a of erection joint seat 5, bearing frame 8 stretches into the front end fixedly connected with end cover 13 of section 801, the through-hole that can hold rotatory arbor 9 to pass is seted up at end cover 13 middle part, the external diameter of an installation flange 8a sets up with the external diameter of erection joint seat 5 is corresponding. A spacer bush 14 is sleeved on a rotary cutter shaft 9 penetrating through an end cover 13, the rear end of the spacer bush 14 is attached to and fixedly connected with the end cover 13, the fly cutter assembly comprises a rectangular seat plate 15 installed on the rotary cutter shaft 9, the seat plate 15 is fixedly connected with the spacer bush 14, an installation hole corresponding to the rotary cutter shaft 9 is formed in the middle of the seat plate 15, two crushing cutters 16 are sequentially arranged on the rotary cutter shaft 9 in the axial direction on the front side of the seat plate 15, the crushing cutters 16 are U-shaped, each crushing cutter 16 comprises a main body part 16a perpendicular to the rotary cutter shaft 9, the main body part 16a is in threaded connection with the rotary cutter shaft 9, side cutter parts 16b are integrally arranged on the left side and the right side of the main body part 16a, the length direction of each side cutter part 16b is parallel to the rotary cutter shaft 9, and a clamping sleeve 17 attached to; the included angle of the two crushing cutters 16 along the circumferential direction of the rotary cutter shaft 9 is 90 degrees; the rotary cutter shaft 9 is obliquely arranged, the rotary cutter shaft 9 is perpendicular to the stirring main shaft 2, and the rotary cutter shaft 9 and the stirring main shaft 2 are positioned in the same plane.

The on-line detection sampling mechanism B comprises a cylindrical mounting seat 23 obliquely arranged on the side surface of the machine shell 1, a central seat hole 23a is axially formed in the mounting seat 23, a detection sampling cylinder 31 is correspondingly and axially inserted into the central seat hole 23a of the mounting seat 23, a detection inlet 24 is formed in the machine shell 1 corresponding to the detection sampling cylinder 31, the periphery of the detection sampling cylinder 31 is attached to the central seat hole 23a of the mounting seat 23, a reinforcing flange 25 is arranged at the outward end part of the mounting seat 23, the reinforcing flange 25 is fixedly connected with the detection sampling cylinder 31 through a plurality of fasteners III 26 uniformly distributed at intervals along the circumferential direction, a vertically and downwardly extending discharge pipe 27 is integrally arranged at the lower side of the detection sampling cylinder 31, the interior of the discharge pipe 27 is communicated with the interior of the detection sampling cylinder 31, an air cylinder 28 is correspondingly arranged at the other end of the detection sampling cylinder 31, and a piston rod of the, the end of the piston rod of the cylinder 28 is provided with a telescopic material taking plug 28 a. The other end of the detection sampling cylinder 31 is provided with a first connecting seat plate 29, the front end of the air cylinder 28 is provided with a second connecting seat plate 30 corresponding to the first connecting seat plate 29, and the second connecting seat plate 30 is fixedly connected with the first connecting seat plate 29; one end of the detection sampling cylinder 31 inserted into the mounting seat 23 is arranged corresponding to the casing 1, and when the mixer works, the telescopic material taking plug 28a plugs the detection inlet 24; during sampling, the telescoping take off plug 28a is retracted back to open the inspection access port 24. The stirring main shaft 2 is vertical to the axis of the detection sampling cylinder 31, and the axis of the detection sampling cylinder 31 and the axis of the stirring main shaft 2 are positioned in the same plane.

The utility model has the advantages that: the utility model discloses during operation, after the material got into casing 1 inside, stirring main shaft 2 stirred the material through stirring subassembly 3, and the material moved along casing 1 inner wall, fixed bearing frame 8 on erection joint seat 5, was convenient for install drive assembly, and high-speed pivoted rotatory arbor 9 drives flying knife subassembly and rotates, and flying knife subassembly breaks up the material and cuts the breakage for the material further promotes the mixed effect; when the mixer mixes materials, the piston rod of the air cylinder 28 is in an extending state, and the detection inlet 24 is blocked by the telescopic material taking plug 28 a; mix a period of time after, need carry out the sampling test to the material in the casing 1, the piston rod of cylinder 28 is to the retraction, make flexible material end cap 28a of getting move the rear end that detects the sampler barrel 31, the material gets into through detecting the inlet port 24 and detects the sampler barrel 31, discharge from discharging pipe 27 again, then can carry out on-line measuring to the material of taking out, on-line measuring sampling mechanism B can sample in real time mixing 1 inside material of machine casing, the mixed degree and the effect of on-line measuring material, and do not influence the normal work that mixes the machine, it is more convenient to detect.

The present invention is not limited to the above embodiments, and based on the technical solutions disclosed in the present invention, those skilled in the art can make some replacements and transformations for some technical features without creative labor according to the disclosed technical contents, and these replacements and transformations are all within the protection scope of the present invention.

Claims (9)

1. A novel high-viscosity material mixer comprises a casing, wherein a stirring main shaft is rotatably arranged in the casing and is in transmission connection with a rotary driving mechanism, the stirring main shaft is parallel to the length direction of the mixer, and a stirring assembly is arranged on the stirring main shaft; the casing side still is provided with on-line measuring sampling mechanism, and on-line measuring sampling mechanism is linked together with the casing is inside, and the chassis bottom is provided with the discharge gate, and the casing below corresponds the discharge gate and is provided with the unloading chamber, and on-line measuring sampling mechanism and fly sword break up the lower part that the mechanism all set up at the casing side and be close to the unloading chamber.

2. The novel high-viscosity material mixer as claimed in claim 1, wherein the casing comprises two arc-shaped side plates arranged in a front-back corresponding manner, end plates are arranged at the left end and the right end of each of the two side plates, top plates are arranged at the tops of the two side plates, and the online detection sampling mechanism and the fly cutter scattering mechanism are arranged on the side plates; all around the discharging cavity are provided with cavity side walls.

3. The novel high-viscosity material mixing machine as claimed in claim 1 or 2, wherein the rotary driving mechanism comprises a main motor, one end of the stirring main shaft extends out of the machine shell and is in transmission connection with the main motor through a speed reducer, and the other end of the stirring main shaft extends out of the machine shell and is rotatably supported on a support.

4. The novel high-viscosity material mixer as claimed in claim 1 or 2, wherein the driving assembly comprises a mounting and connecting seat disposed on the housing, the mounting and connecting seat is axially provided with a central hole, the housing is correspondingly provided with a fly cutter inlet hole, a plurality of first threaded connecting holes are circumferentially disposed on an annular end surface of the mounting and connecting seat at equal intervals, a bearing seat is disposed correspondingly to the mounting seat, a rotary cutter shaft is rotatably disposed on the bearing seat, a front end of the rotary cutter shaft extends into the housing, the fly cutter assembly is disposed at a front end of the rotary cutter shaft, a first mounting flange and a second mounting flange are disposed respectively at front and rear ends of the bearing seat, the first mounting flange is fixedly connected with the mounting and connecting seat through a plurality of first fasteners, the first fasteners extend into the corresponding first threaded connecting holes, and a direct-connected motor is disposed correspondingly to a rear end of the bearing seat, directly link the motor tip and be provided with the motor flange, the equidistant a plurality of threaded connection holes two that are provided with of circumference are gone up along mounting flange two, and the motor flange passes through a plurality of fasteners two and mounting flange two-phase fixed connection, and fastener two stretches into in corresponding threaded connection hole two, the motor shaft that directly links the motor is connected with rotatory cutter shaft transmission.

5. The novel high-viscosity material mixer as claimed in claim 4, wherein the bearing seat is integrally provided with an extending section at the front end of the first mounting flange, the extending section of the bearing seat is inserted into a central hole of the first mounting flange, the outer diameter of the extending section of the bearing seat is matched with the inner diameter of the central hole of the first mounting flange, the front end of the extending section of the bearing seat is fixedly connected with an end cover, a through hole for allowing a rotary cutter shaft to pass is formed in the middle of the end cover, and the outer diameter of the first mounting flange is arranged corresponding to the outer diameter of the first mounting flange.

6. The novel high-viscosity material mixer as claimed in claim 5, wherein a spacer is sleeved on the rotary cutter shaft passing through the end cover, the rear end of the spacer is attached to and fixedly connected with the end cover, the fly cutter assembly comprises a rectangular base plate mounted on the rotary cutter shaft, the base plate is fixedly connected with the spacer, a mounting hole corresponding to the rotary cutter shaft is formed in the middle of the base plate, two crushing cutters are sequentially arranged on the rotary cutter shaft along the axial direction on the front side of the base plate, the crushing cutters are U-shaped, each crushing cutter comprises a main body part perpendicular to the rotary cutter shaft, the main body part is in threaded connection with the rotary cutter shaft, side cutter parts are integrally formed on the left side and the right side of the main body part, the length direction of each side cutter part is parallel to the rotary cutter shaft, and the front end of each rotary cutter is in threaded connection with a clamping; the included angle of the two crushing cutters along the circumferential direction of the rotary cutter shaft is 90 degrees; the rotary cutter shaft is obliquely arranged, the rotary cutter shaft is perpendicular to the stirring main axis, and the rotary cutter shaft and the stirring main axis are located in the same plane.

7. The novel high-viscosity material mixing machine of claim 1 or 2, wherein the on-line detection sampling mechanism comprises a cylindrical mounting seat obliquely arranged on the side surface of the machine shell, a central seat hole is axially formed in the mounting seat, the detection sampling cylinder is correspondingly and axially inserted into the central seat hole of the mounting seat, a detection inlet is formed in the machine shell correspondingly to the detection sampling cylinder, the periphery of the detection sampling cylinder is attached to the central seat hole wall of the mounting seat, a reinforcing flange is arranged at the outward end of the mounting seat and fixedly connected with the detection sampling cylinder through a plurality of fasteners III uniformly distributed at intervals in the circumferential direction, a discharge pipe vertically extending downwards is integrally arranged on the lower side of the detection sampling cylinder, the interior of the discharge pipe is communicated with the interior of the detection sampling cylinder, an air cylinder is correspondingly arranged at the other end of the detection sampling cylinder, and a piston rod of the air cylinder correspondingly extends into the detection sampling cylinder, the piston rod end of the cylinder is provided with a telescopic material taking plug.

8. The novel high-viscosity material mixer as claimed in claim 7, wherein a first connecting seat plate is arranged at the other end of the detection sampling cylinder, a second connecting seat plate is arranged at the front end of the air cylinder corresponding to the first connecting seat plate, and the second connecting seat plate is fixedly connected with the first connecting seat plate; one end of the detection sampling cylinder, which is inserted into the mounting seat, is arranged corresponding to the casing, and when the mixer works, the detection inlet is blocked by the telescopic material taking plug; during sampling, the telescopic material taking plug retracts backwards to open the detection inlet.

9. The novel high-viscosity material mixing machine of claim 8, wherein the stirring main shaft is perpendicular to the axis of the detection sampling cylinder, and the axis of the detection sampling cylinder and the stirring main shaft are in the same plane.

Images