CN209752791U - Thermosetting powder processing ration feeder - Google Patents

Abstract

The utility model discloses a thermosetting powder processing quantitative feeder, the structure of which comprises a support plate, a support frame, a support leg, a discharge pipe, a first motor cover, a top frame, a control panel, a second motor cover, a mixing mechanism and a scattering mechanism, the utility model has the following advantages that in order to solve the problems that the mixing of the thermosetting powder processing quantitative feeder in the prior art is not uniform, the addition is caked, the stirring is not uniform and the particle size is different, the mixing mechanism and the scattering mechanism are designed, when in use, the quantitative feeding can be carried out through a plurality of feeding hoppers, then, the first scattering shaft rod and the second scattering shaft rod are mutually crossed and scattered, simultaneously, the first and the second scattering shaft rods are preliminarily mixed, then the first and the second scattering shaft rods are uniformly mixed by the stirring blades in the mixing mechanism, the sections of the stirring blades are in a T shape, efficient mixing can be carried out, and the function of double-effect scattering and stirring is realized.

Description

Thermosetting powder processing ration feeder

Technical Field

the utility model relates to a thermosetting powder processing technology field, in particular to thermosetting powder processing ration feeder.

Background

Thermosetting powder generally is as metal surface's protective coating, be applied to household electrical appliances, the transport means of different grade type, trades such as pipeline, play anticorrosive and decorative effect, relatively pay close attention to anticorrosive metal top layer, thermosetting powder can all be sprayed, thermosetting powder is adding different additives that need mix man-hour, all have certain addition ratio requirement between the different additives, along with scientific and technological rapid development, thermosetting powder processing ration feeder has also obtained technical improvement, but the novel thermosetting powder processing ration feeder of prior art compounding is inhomogeneous when mixing, often the additive has the caking, lead to stirring inhomogeneous, the problem that the particulate matter is not of uniform size.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to overcome prior art not enough, now provide a thermosetting powder processing ration feeder to it is inhomogeneous to solve the novel thermosetting powder processing ration feeder of prior art compounding when mixing, often the additive has the caking, leads to stirring inhomogeneous, and the problem that the particulate matter is not of uniform size has reached the effect that the stirring was broken up to the economic benefits and social benefits.

(II) technical scheme

The utility model discloses a following technical scheme realizes: the utility model provides a thermosetting powder processing quantitative batch feeder, which comprises a support plate, a support frame, a support leg, a discharge pipe, a first motor cover, a top frame, a control panel, a second motor cover, a mixing mechanism and a scattering mechanism, wherein the left side of the bottom end of the support plate is welded with the support frame, the right side of the bottom end of the support plate is welded with the support leg, the right side of the bottom end of the support plate is welded with the discharge pipe, the left side of the top end of the support plate is bolted with the first motor cover through a nut, the left side of the top end of the support plate is welded with the top frame, the right side of the top end of the support plate is welded with the mixing mechanism, the left front side of the top end of the top frame is bolted with the control panel through a nut, the right side of the top end of the top frame is bolted with the second, the mixing mechanism comprises a mixing cabin, a stirring shaft, a first motor and a stirring blade, the middle part of the mixing cabin is rotationally connected with the stirring shaft through a bearing, the middle part of the left side of the mixing cabin is rotationally connected with the first motor through a rotating shaft, the middle part of the right side of the first motor is connected with the stirring shaft, the middle part of the outer surface of the stirring shaft is mutually inserted with the stirring blade, the scattering mechanism comprises a scattering cabin, a first supporting seat, a first bearing sleeve, a second bearing sleeve, a feeding hopper, a first scattering shaft rod, a second supporting seat and a second motor, the first supporting seat is arranged at the lower right part of the scattering cabin, the middle rear side of the right side of the scattering cabin is rotationally connected with the first bearing sleeve through a rotating shaft, the middle front side of the right side of the scattering cabin is rotationally connected with the second bearing sleeve through a rotating shaft, and the left side of the top end, the rear side of the scattering cabin is rotatably connected with the first scattering shaft rod through a rotating shaft, the right side of the first scattering shaft rod is connected with the first bearing sleeve, the front side of the scattering cabin is rotatably connected with the second scattering shaft rod through a rotating shaft, the right side of the second scattering shaft rod is connected with the second bearing sleeve, the left end of the scattering cabin is rotatably connected with the second supporting seat through a rotating shaft, and the top of the left end of the second supporting seat is rotatably connected with the second motor through a rotating shaft.

Further, the blades between the first scattering shaft rod and the second scattering shaft rod are in a parallel cross shape.

Furthermore, a blanking baffle is arranged at the bottom of the scattering cabin.

Furthermore, the feeding hoppers are arranged in three numbers and are respectively and equidistantly arranged at the top end of the scattering cabin.

Furthermore, the stirring blades are arranged in three numbers, are respectively arranged on the outer surface of the stirring shaft at equal intervals, and are in T-shaped sections.

Furthermore, a discharge hole is formed in the middle right side of the bottom end of the mixing cabin in a pouring and fusing mode.

Furthermore, a plurality of heat dissipation ports are formed in the middle of the front end and the middle of the rear end of the first motor cover and the second motor cover.

(III) advantageous effects

Compared with the prior art, the utility model, following beneficial effect has:

1) The compounding is inhomogeneous when mixing for solving the novel thermosetting powder of prior art processing ration feeder, often the additive has the caking, lead to stirring inhomogeneous, the problem that the particulate matter is not uniform in size, mixing mechanism has been designed and has broken up the mechanism, can carry out the ration through a plurality of income hoppers during the use and feed in raw material, then through first, the axostylus axostyle intercrossing is broken up to two, preliminary mixing is carried out simultaneously, then by the stirring leaf homogeneous mixing in the mixing mechanism again, the stirring leaf section is the T word form, can carry out the efficient and mix, the function of stirring has been broken up to the economic benefits and social benefits.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the mixing mechanism of the present invention;

FIG. 3 is a schematic structural view of the scattering mechanism of the present invention;

Fig. 4 is a bottom view of the support plate of the present invention;

in the figure: the device comprises a supporting plate-1, a supporting frame-2, supporting legs-3, a discharging tube-4, a first motor cover-5, a top frame-6, a control screen-7, a mixing mechanism-8, a scattering mechanism-9, a second motor cover-10, a mixing cabin-801, a stirring shaft-802, a first motor-803, a stirring blade-804, a scattering cabin-901, a first supporting seat-902, a first bearing sleeve-903, a second bearing sleeve-904, a feeding hopper-905, a first scattering shaft rod-906, a second scattering shaft rod-907, a second supporting seat-908 and a second motor-909.

Detailed Description

In the technical scheme:

The mixing mechanism-8, the breaking mechanism-9, the mixing cabin-801, the stirring shaft-802, the first motor-803, the stirring blade-804, the breaking cabin-901, the first supporting seat-902, the first bearing sleeve-903, the second bearing sleeve-904, the feeding hopper-905, the first breaking shaft lever-906, the second breaking shaft lever-907, the second supporting seat-908 and the second motor-909 are essential innovative components of the utility model.

The supporting plate-1, the supporting frame-2, the supporting feet-3, the discharging pipe-4, the first motor cover-5, the top frame-6, the control screen-7 and the second motor cover-10 are necessary connecting components for realizing the technical proposal of the utility model.

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, fig. 2, fig. 3 and fig. 4, the present invention provides a thermosetting powder processing quantitative feeder: the device comprises a supporting plate 1, a supporting frame 2, a supporting leg 3, a discharging pipe 4, a first motor cover 5, a top frame 6, a control screen 7, a second motor cover 10, a mixing mechanism 8 and a scattering mechanism 9, wherein the left side of the bottom end of the supporting plate 1 is welded with the supporting frame 2, the right side of the bottom end of the supporting plate 1 is welded with the supporting leg 3, the right side of the bottom end of the supporting plate 1 is welded with the discharging pipe 4, the left side of the top end of the supporting plate 1 is in bolted connection with the first motor cover 5 through a nut, the left side of the top end of the supporting plate 1 is welded with the top frame 6, the right side of the top end of the supporting plate 1 is welded with the mixing mechanism 8, the left front side of the top end of the top frame 6 is in bolted connection with the control screen 7 through a nut, the right side of the top end of the top frame 6 is, The mixer comprises a first motor 803 and a stirring blade 804, the middle part of a mixing cabin 801 is rotationally connected with a stirring shaft 802 through a bearing, the middle part of the left side of the mixing cabin 801 is rotationally connected with the first motor 803 through a rotating shaft, the middle part of the right side of the first motor 803 is connected with the stirring shaft 802, the middle part of the outer surface of the stirring shaft 802 is mutually inserted with the stirring blade 804, a scattering mechanism 9 comprises a scattering cabin 901, a first supporting seat 902, a first bearing sleeve 903, a second bearing sleeve 904, a feeding hopper 905, a first scattering shaft lever 906, a second scattering shaft lever 907, a second supporting seat 908 and a second motor 909, the first supporting seat 902 is arranged at the right lower part of the scattering cabin 901, the middle and rear sides of the right side of the scattering cabin 901 are rotationally connected with the first bearing sleeve 903 through a rotating shaft, the middle and front sides of the right side of the scattering cabin 901 are rotationally connected with the second bearing sleeve 904 through a rotating shaft, the top left side of the scattering cabin 901 is welded with the feeding hopper 905, the middle and, the right side of the first scattering shaft 906 is connected with the first bearing sleeve 903, the middle front side of the inner side of the scattering cabin 901 is rotatably connected with the second scattering shaft 907 through a rotating shaft, the right side of the second scattering shaft 907 is connected with the second bearing sleeve 904, the left end of the scattering cabin 901 is rotatably connected with the second supporting seat 908 through a rotating shaft, and the top of the left end of the second supporting seat 908 is rotatably connected with the second motor 909 through a rotating shaft.

The blades between the first scattering shaft rod 906 and the second scattering shaft rod 907 are in a parallel cross shape, so that crossed scattering can be performed, the scattering effect is good, and primary stirring processing can be performed.

The bottom of the scattering cabin 901 is provided with a blanking baffle, so that materials can be blocked during scattering work.

the feeding hoppers 905 are three in number, are respectively and equidistantly arranged at the top end of the scattering cabin 901, and can feed various additives simultaneously.

the stirring blades 804 are arranged in three, are respectively arranged on the outer surface of the stirring shaft 802 at equal intervals, and are in T-shaped sections, so that the stirring effect is good, and the stirring area is wide.

Wherein, the right side is pour in the mixed cabin 801 bottom and is fused there is a discharge gate, can carry out the ejection of compact with discharging pipe 4 grafting each other.

Wherein, first motor cover 5 and 10 front ends of second motor cover and rear end middle part all are provided with a plurality of thermovents, can dispel the heat to the motor, avoid the inside operating temperature of motor too high.

The working principle is as follows: when in use, the thermosetting powder processing quantitative batch feeder is firstly placed at a place to be used, then the material collecting barrel is placed at the bottom of the discharge pipe 4, and then the power supply is connected, when in use, three feeding hoppers 905 are arranged, are respectively and equidistantly arranged at the top end of the scattering cabin 901, the feeding hoppers 905 can be respectively connected with required material feeding pipes, then the second motor 909 is selectively opened through the control screen, when a plurality of feeding hoppers 905 are simultaneously fed, the second motor 909 drives the first scattering shaft 906 and the second scattering shaft 907 to rotate through the belt, blades between the first scattering shaft 906 and the second scattering shaft 907 are in a parallel cross shape, cross scattering can be carried out, materials can be preliminarily put into and mixed while being scattered respectively, then discharging is carried out through a discharging opening at the bottom of the scattering cabin 901, then the first motor 803 drives the stirring shaft 802 to rotate the stirring blades 804 for final mixing, stirring leaf 804 is provided with threely altogether, and what be equidistance respectively installs at (mixing) shaft 802 surface to the stirring vane of stirring leaf 804 is the section of T word form, carries out the ejection of compact through discharging pipe 4 after the homogeneous mixing, and this device can carry out preliminary scattering earlier with additive and material when using and mixes again, and fine having avoided some great granules to have influenced the finished product quality of processing when directly throwing the material and using, has good practicality.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The utility model provides a thermosetting powder processing ration feeder, includes backup pad (1), support frame (2), supporting legs (3), discharging pipe (4), first motor cover (5), roof-rack (6), control panel (7) and second motor cover (10), its characterized in that: the device is characterized by further comprising a mixing mechanism (8) and a scattering mechanism (9), wherein the left side of the bottom of the support plate (1) is welded with the support frame (2), the right side of the bottom of the support plate (1) is welded with the support leg (3), the right side of the bottom of the support plate (1) is welded with the discharge pipe (4), the left side of the top of the support plate (1) is in bolted connection with the first motor cover (5) through a nut, the left side of the top of the support plate (1) is welded with the top frame (6), the right side of the top of the support plate (1) is welded with the mixing mechanism (8), the left front side of the top frame (6) is in bolted connection with the control screen (7) through a nut, the right side of the top frame (6) is in bolted connection with the second motor cover (10) through a nut, and the middle part of the inner side of, the mixing mechanism (8) comprises a mixing cabin (801), a stirring shaft (802), a first motor (803) and a stirring blade (804), the middle part of the mixing cabin (801) is rotatably connected with the stirring shaft (802) through a bearing, the middle part of the left side of the mixing cabin (801) is rotatably connected with the first motor (803) through a rotating shaft, the middle part of the right side of the first motor (803) is connected with the stirring shaft (802), the middle part of the outer surface of the stirring shaft (802) is mutually inserted with the stirring blade (804), the scattering mechanism (9) comprises a scattering cabin (901), a first supporting seat (902), a first bearing sleeve (903), a second bearing sleeve (904), a feeding hopper (905), a first scattering shaft rod (906), a second scattering shaft rod (907), a second supporting seat (908) and a second motor (909), and a first supporting seat (902) is arranged below the scattering cabin (901) in the right, the middle rear side of the right side of the scattering cabin (901) is rotatably connected with a first bearing sleeve (903) through a rotating shaft, the middle front side of the right side of the scattering cabin (901) is rotationally connected with a second bearing sleeve (904) through a rotating shaft, the left side of the top end of the scattering cabin (901) is welded with a feeding hopper (905), the middle rear side of the inner side of the scattering cabin (901) is rotationally connected with a first scattering shaft lever (906) through a rotating shaft, and the right side of the first scattering shaft rod (906) is connected with a first bearing sleeve (903), the middle front side of the inner side of the scattering cabin (901) is rotationally connected with a second scattering shaft lever (907) through a rotating shaft, and the right side of the second breaking shaft (907) is connected with a second bearing sleeve (904), the left end of the scattering cabin (901) is rotatably connected with a second supporting seat (908) through a rotating shaft, the top of the left end of the second supporting seat (908) is rotatably connected with a second motor (909) through a rotating shaft.

2. The thermosetting powder processing quantitative feeder according to claim 1, wherein: the blades between the first scattering shaft rod (906) and the second scattering shaft rod (907) are in a parallel cross shape.

3. The thermosetting powder processing quantitative feeder according to claim 1, wherein: a blanking baffle is arranged at the bottom of the scattering cabin (901).

4. The thermosetting powder processing quantitative feeder according to claim 1, wherein: the feed hoppers (905) are three in number and are respectively and equidistantly arranged at the top end of the scattering cabin (901).

5. The thermosetting powder processing quantitative feeder according to claim 1, wherein: the stirring blades (804) are arranged in three numbers, are respectively and equidistantly arranged on the outer surface of the stirring shaft (802), and the stirring blades of the stirring blades (804) are in a T-shaped section.

6. The thermosetting powder processing quantitative feeder according to claim 1, wherein: the middle right side of the bottom end of the mixing cabin (801) is cast and fused with a discharge hole.

7. The thermosetting powder processing quantitative feeder according to claim 1, wherein: a plurality of heat dissipation ports are formed in the middle of the front end and the middle of the rear end of the first motor cover (5) and the second motor cover (10).