CN213699655U - Mixing arrangement is used in carbon production convenient to ration is reinforced - Google Patents

Abstract

The utility model is suitable for a carbon element processing technology field provides a mixing arrangement is used in carbon element production convenient to ration is reinforced, mainly includes supporting component and mixing assembly, the supporting component includes base, mount pad and mounting bracket, mixing assembly includes blending tank, hold up tank, spiral unloading axle, step motor and revolving cylinder, can mix carbon element and other batching through a plurality of hold up tanks, carries carbon element by spiral unloading axle, reduces manual operation, and unloading efficiency is higher; the stepping motor can control the rotation time of the spiral discharging shaft, so that the feeding quantity can be accurately controlled, and the mixing of carbon can be accurately controlled; a stirring shaft is arranged in the mixing tank, so that carbon can be stirred, the mixing is more uniform, and the quality is higher; the mixing tank can be rotated and is obliquely arranged, so that the mixed carbon can be conveniently taken out, and the use is more convenient; the device has simple structure and easy maintenance, and is worthy of popularization and sale.

Description

Mixing arrangement is used in carbon production convenient to ration is reinforced

Technical Field

The utility model belongs to the technical field of carbon element production and processing, especially, relate to a mixing arrangement is used in carbon element production convenient to ration is reinforced.

Background

In the current materials field, carbon and graphite materials are non-metallic solid materials based on elemental carbon, wherein carbon materials are materials consisting essentially of non-graphitic carbon, and graphite materials are materials consisting essentially of graphitic carbon.

In the existing common carbon production processing, carbon and other particles or powder need to be mixed and then processed, a mixer is needed in the process, the carbon cannot be quantitatively added into the common mixer, the carbon needs to be weighed manually and then proportionally mixed, the efficiency is extremely low, the operation is inconvenient, the carbon cannot be fully mixed, and the quality of the carbon is poor.

SUMMERY OF THE UTILITY MODEL

The utility model provides a mixing arrangement is used in carbon production convenient to ration is reinforced aims at solving the efficiency that mentions in the above-mentioned background art lower, and unable automatic ration mixes, the lower problem of mixing quality.

The utility model discloses a realize like this, a mixing arrangement is used in carbon production convenient to ration is reinforced, including supporting component and hybrid module, hybrid module installs on the supporting component.

The supporting component comprises a base, a mounting seat and a mounting frame, wherein the upper surface of the base is symmetrically provided with two mounting seats, two bearing seats I, one are installed on the side surface of each mounting seat, driven shafts and driven shafts are installed on the bearing seats I, a mounting cavity is formed in each mounting seat, a driving shaft is installed in each mounting cavity in a penetrating mode, and the driving shaft is installed in each bearing seat I, two are installed on the upper surface of each mounting seat.

The mixing assembly comprises a mixing tank, a storage tank, a spiral discharging shaft, a stepping motor and a rotary air cylinder, the mixing tank is fixedly arranged between a driving shaft and a driven shaft, the driving shaft and the driven shaft are fixedly connected with the surfaces on the two sides of the mixing tank, a containing cavity is arranged in the mixing tank, a conical surface is arranged in the containing cavity, a mixing shaft penetrating through the bottom wall of the containing cavity is arranged in the containing cavity, a plurality of metal fan blades which are uniformly arranged are arranged on the part of the mixing shaft in the containing cavity, a first helical gear is arranged at the lower end of the mixing shaft, a speed reducing motor is arranged in the mixing tank, a second helical gear matched with the first helical gear is arranged at the output end of the speed reducing motor, the first helical gear and the second helical gear are placed in contact with each other, feed inlets, the screw blanking device is characterized in that a rotating cover is installed on the feeding holes, a discharging hole penetrating through the top wall of the accommodating cavity is formed in the upper surface of the mixing tank, a sealing cover is installed on the discharging hole in a matched mode, two storage grooves are installed on the corresponding installation frame, blanking holes are formed in the lower ends of the two storage grooves, the two blanking holes are placed above the two corresponding feeding holes, a screw blanking shaft matched with the blanking holes is installed in the storage grooves, a plurality of blades are evenly arranged on the outer surface of the screw blanking shaft, a first gear is installed on the screw blanking shaft, the stepping motor is obliquely installed on the installation frame, a second gear matched with the first gear is installed at the output end of the stepping motor, the second gear is placed in contact with the first gear, a second bearing seat is sleeved on the screw blanking shaft, and the second bearing seat is installed on the installation frame, the rotary cylinder is installed in the installation cavity, and the output end of the rotary cylinder is connected with the driving shaft.

Preferably, the lower surface of the base is adhered with a foot pad made of rubber.

Preferably, the mounting frame is provided with a protection plate wrapping the stepping motor.

Preferably, an arc-shaped handle is mounted on the upper surface of the sealing cover.

Preferably, an access door penetrating through the side wall of the installation cavity is installed on the outer surface of the installation seat, and a bolt is installed on the access door.

Preferably, the feed inlet is articulated rotate the lid, just be provided with the screw hole on the feed inlet, it runs through to rotate to cover threaded connection rotate the lid and with screw hole matched with locking screw, just it has with to rotate to cover lower surface paste the sealed pad of feed inlet matched with.

Preferably, the rotation angle of the rotary cylinder ranges from 0 degree to 270 degrees.

Compared with the prior art, the beneficial effects of the utility model are that: a mixing device for carbon production convenient for quantitative feeding can mix carbon and other ingredients through a plurality of storage tanks, and carbon is conveyed by a spiral feeding shaft, so that manual operation is reduced, and feeding efficiency is higher; the stepping motor can control the rotation time of the spiral discharging shaft, so that the feeding quantity can be accurately controlled, and the mixing of carbon can be accurately controlled; a stirring shaft is arranged in the mixing tank, so that carbon can be stirred, the mixing is more uniform, and the quality is higher; the mixing tank can be rotated and is obliquely arranged, so that the mixed carbon can be conveniently taken out, and the use is more convenient; the device has simple structure and easy maintenance, and is worthy of popularization and sale.

Drawings

Fig. 1 is a front view of the overall structure of the present invention;

FIG. 2 is a structural view of the rotating cover of the present invention;

FIG. 3 is an enlarged view of the point A of FIG. 1 according to the present invention;

in the figure: 1-support component, 11-base, 111-foot pad, 12-mounting seat, 121-mounting cavity, 122-driving shaft, 123-driven shaft, 124-bearing seat I, 125-access door, 13-mounting seat, 131-protection plate, 2-mixing component, 21-mixing tank, 211-containing cavity, 2111-conical surface, 212-stirring shaft, 2121-helical gear I, 2122-fan blade, 213-speed reducing motor, 2131-helical gear II, 214-discharge port, 215-feed port, 2151-rotating cover, 2152-threaded hole, 2153-locking screw, 2154-sealing gasket, 216-sealing cover, 2161-handle, 22-storage tank, 221-helical discharge shaft, 2211-gear I, 2212-bearing seat II, 222-feed opening, 23-stepping motor, 231-gear II and 24-rotating cylinder.

Detailed Description

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. 1-3, the present invention provides a technical solution: the utility model provides a mixing arrangement for carbon production convenient to ration is reinforced, includes supporting component 1 and mixing assembly 2, and mixing assembly 2 installs on supporting component 1.

Supporting component 1 includes base 11, mount pad 12 and mounting bracket 13, and 11 upper surfaces of base are symmetrical to be provided with two mount pads 12, and bearing frame 124 is all installed to 12 side surfaces of two mount pads, and driven shaft 123 is installed to bearing frame 124, is provided with installation cavity 121 in one mount pad 12, and the driving shaft 122 is installed to the run-through in installation cavity 121, and driving shaft 122 is installed in bearing frame 124, and mounting bracket 13 is all installed to two 12 upper surfaces of mount pad.

The mixing component 2 comprises a mixing tank 21, a storage tank 22, a spiral blanking shaft 221, a stepping motor 23 and a rotary cylinder 24, the mixing tank 21 is fixedly arranged between a driving shaft 122 and a driven shaft 123, the driving shaft 122 and the driven shaft 123 are fixedly connected with the two side surfaces of the mixing tank 21, a containing cavity 211 is arranged in the mixing tank 21, a conical surface 2111 is arranged in the containing cavity 211, a stirring shaft 212 penetrating through the bottom wall of the containing cavity 211 is arranged in the containing cavity 211, a plurality of metal fan blades 2122 which are uniformly arranged are arranged on the part of the stirring shaft 212 in the containing cavity 211, a helical gear I2121 is arranged at the lower end of the stirring shaft, a speed reducing motor 213 is arranged in the mixing tank 21, a helical gear 2131 matched with the helical gear I1 is arranged at the output end of the speed reducing motor 213, the helical gear II 2121 and the helical gear 2131 are arranged in contact with each other, feed inlets, the upper surface of the mixing tank 21 is provided with a discharge port 214 penetrating through the top wall of the accommodating cavity 211, a sealing cover 216 is arranged on the discharge port 214 in a matching manner, the two storage tanks 22 are arranged on the corresponding mounting frame 13, the lower ends of the two storage tanks 22 are respectively provided with a feed opening 222, the two feed openings 222 are arranged above the corresponding two feed openings 215, a spiral feed shaft 221 matched with the feed opening 222 is arranged in the storage tank 22, the outer surface of the spiral feed shaft 221 is provided with a plurality of fan blades which are uniformly arranged, a first gear 2211 is arranged on the spiral feed shaft 221, the stepping motor 23 is obliquely arranged on the mounting frame 13, a second gear 231 matched with the first gear 2211 is arranged at the output, the second gear 231 is placed in contact with the first gear 2211, the second bearing block 2212 is sleeved on the spiral blanking shaft 221, and the second bearing block 2212 is installed on the installation frame 13, the rotary cylinder 24 is installed in the installation cavity 121, and the output end of the rotary cylinder 24 is connected with the driving shaft 122.

In this embodiment, the rotary cylinder 24 may be a rotary cylinder manufactured by shenwei pneumatic technology and having a model number of MDSUA7-180S-R73, and a power supply, a controller, a valve and an air pump may be provided by the same manufacturer, the rotary cylinder 24 may rotate the driving shaft 122, the driving shaft 122 drives the mixing tank 21 to swing, thereby mixing the carbon inside more uniformly, the stepping motor 23 may be a stepping motor manufactured by kaifu motor and having a model number of Y09-59D, and both the required power supply and the controller may be provided by the same manufacturer, the stepping motor 23 may transmit power to the spiral discharging shaft 221 through a gear wheel 231, the spiral discharging shaft 221 may rotate itself to drive the carbon to move through its own blades, the stepping motor 23 may control the rotation time of the spiral discharging shaft 221, control the amount of carbon entering the accommodating cavity 211, and the reduction motor 213 may transmit power to the stirring shaft 212, the stirring shaft 212 drives the fan blades 2122 to rotate, so that carbon in the accommodating cavity 211 is uniformly stirred, the mixing efficiency is high, the conical surface 2111 in the accommodating cavity 211 is convenient for pouring out the mixed carbon, and the use is more convenient.

Further, a rubber foot pad 111 is adhered to the lower surface of the base 11.

In this embodiment, the foot pad 111 made of rubber has a shock absorbing effect, and can reduce vibration during operation of the device.

Further, a protection plate 131 for wrapping the stepping motor 23 is installed on the mounting frame 13.

In this embodiment, the protection plate 131 can shield the step motor 23, so as to prevent carbon from spilling due to improper operation, prevent carbon from entering the step motor 23 to damage the step motor 23, and prolong the service life of the step motor 23.

Further, an arc-shaped handle 2161 is mounted on the upper surface of the sealing cover 216.

In this embodiment, the curved handle 2161 facilitates rotation of the sealing cover 216, and closing or opening the sealing cover 216 is more convenient and labor-saving.

Further, an access door 125 penetrating through the side wall of the installation cavity 121 is installed on the outer surface of the installation base 12, and a bolt is installed on the access door 125.

In this embodiment, the access door 125 can be used to access and adjust the internal rotating cylinder 24, and the latch can lock the access door 125 when not in use, preventing the access door 125 from interfering with the operation of the device.

Further, the feed inlet 215 is hinged with a rotary cover 2151, a threaded hole 2152 is formed in the feed inlet 215, a locking screw 2153 which penetrates through the rotary cover 2151 and is matched with the threaded hole 2152 is in threaded connection with the rotary cover 2151, and a sealing gasket 2154 which is matched with the feed inlet 215 is adhered to the lower surface of the rotary cover 2151.

In this embodiment, the rotating cap 2151 may be secured to the threaded hole 2152 by a locking screw 2153 to prevent the rotating cap 2151 from being opened when the mixing tank is rotated, and the sealing packing 2154 enhances the sealing of the rotating cap 2151 to prevent carbon from spilling.

Further, the rotation angle of the rotary cylinder 24 ranges from 0 to 270 degrees.

In the present embodiment, the rotary cylinder 24 can control the power supply and the air pump by the controller, so as to limit the rotation angle of the rotary cylinder 24, prevent the swing angle of the rotary cylinder 24 from being too large, and prevent the swing angle of the mixing tank 21 from being too large to touch other parts of the device, thereby damaging the device.

The utility model discloses a theory of operation and use flow: after the utility model is installed, the power is switched on, carbon and mixture which need to be mixed are put into the corresponding containing cavity 22, the corresponding stepping motor 23 is opened, the stepping motor 23 drives the first gear 2211 through the second gear 231, and then the power is transmitted to the spiral blanking shaft 221, and the spiral blanking shaft 221 is driven to rotate, the spiral blanking shaft 221 drives the carbon and the mixture to move through the rotation of the fan blades, the rotation time of the spiral blanking shaft 221 can be controlled by controlling the stepping motor 23, the quantity of the carbon and the mixture is controlled, the carbon and the mixture flows into the corresponding feed inlet 215 through the blanking port 222, and then flows into the containing cavity 211, the corresponding rotating cover 2151 and the sealing cover 216 are closed and locked, the speed reducing motor 213 is started, the speed reducing motor 213 drives the first helical gear 2121 through the second gear 2131, and then the stirring shaft 212 is driven to rotate, the stirring shaft 212 stirs the carbon and the mixture in the containing cavity 211 through the fan blades 212, meanwhile, the rotary cylinder 24 is started, the rotary cylinder 24 drives the driving shaft 122 to rotate, the driving shaft 122 drives the mixing tank 21 to swing, the driven shaft 123 rotates along with the mixing, the speed reducing motor 213 is closed after the mixing is finished, the rotary cylinder 24 is controlled to rotate, so that the mixing tank 21 is inclined and fixed, the sealing cover 216 is opened, the mixing tank 21 is restored to the original position after the mixed carbon is poured out, and the power supply of the device is closed, so that the whole process of the operation of the mixing device for carbon production, which is convenient for quantitative feeding, is finished.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. The utility model provides a mixing arrangement for carbon production convenient to ration is reinforced which characterized in that: comprises a support component (1) and a mixing component (2), wherein the mixing component (2) is arranged on the support component (1);

the supporting assembly (1) comprises a base (11), mounting seats (12) and a mounting frame (13), wherein the two mounting seats (12) are symmetrically arranged on the upper surface of the base (11), bearing seats I (124) are respectively arranged on the side surfaces of the two mounting seats (12), a driven shaft (123) is arranged on one bearing seat I (124), a mounting cavity (121) is arranged in one mounting seat (12), a driving shaft (122) is installed in the mounting cavity (121) in a penetrating manner, the driving shaft (122) is installed in the bearing seats I (124), and the mounting frame (13) is respectively arranged on the upper surfaces of the two mounting seats (12);

the mixing assembly (2) comprises a mixing tank (21), a storage tank (22), a spiral discharging shaft (221), a stepping motor (23) and a rotary air cylinder (24), the mixing tank (21) is fixedly installed between a driving shaft (122) and a driven shaft (123), the driving shaft (122) and the driven shaft (123) are fixedly connected with the two side surfaces of the mixing tank (21), a containing cavity (211) is arranged inside the mixing tank (21), a conical surface (2111) is arranged in the containing cavity (211), a stirring shaft (212) penetrating through the bottom wall of the containing cavity (211) is installed in the containing cavity (211), a plurality of uniformly arranged metal fan blades (2122) are installed on the part of the containing cavity (211), a helical gear I (2121) is installed at the lower end of the stirring shaft, and a speed reducing motor (213) is installed in the mixing tank (21), the output end of the speed reducing motor (213) is provided with a second helical gear (2131) matched with the first helical gear (2121), the first helical gear (2121) and the second helical gear (2131) are placed in contact, the outer surfaces of two sides of the mixing tank (21) are respectively provided with a feed inlet (215) penetrating through the inner wall of the accommodating cavity (211), the feed inlet (215) is provided with a rotating cover (2151), the upper surface of the mixing tank (21) is provided with a discharge outlet (214) penetrating through the top wall of the accommodating cavity (211), the discharge outlet (214) is provided with a sealing cover (216) in a matching manner, the two storage tanks (22) are arranged on the corresponding mounting frame (13), the lower ends of the two storage tanks (22) are respectively provided with a feed opening (222), the two feed openings (222) are arranged above the corresponding two feed inlets (215), and the spiral feed shafts (221) matched with the feed openings (222) are arranged in the storage tanks (22), spiral unloading axle (221) surface is provided with a plurality of align to grid's flabellum, install gear (2211) on spiral unloading axle (221), install step motor (23) slope is installed on mounting bracket (13), step motor (23) output is installed and is cooperateed gear two (231) with gear one (2211), just gear two (231) with gear one (2211) contact is placed, the cover is equipped with bearing frame two (2212) on spiral unloading axle (221), just bearing frame two (2212) are installed on mounting bracket (13), revolving cylinder (24) are installed in installation cavity (121), just revolving cylinder (24) output is connected driving shaft (122).

2. The mixing apparatus for carbon production facilitating quantitative charging as set forth in claim 1, wherein: the lower surface of the base (11) is stuck with a foot pad (111) made of rubber.

3. The mixing apparatus for carbon production facilitating quantitative charging as set forth in claim 1, wherein: and the mounting rack (13) is provided with a protection plate (131) wrapping the stepping motor (23).

4. The mixing apparatus for carbon production facilitating quantitative charging as set forth in claim 1, wherein: an arc-shaped handle (2161) is arranged on the upper surface of the sealing cover (216).

5. The mixing apparatus for carbon production facilitating quantitative charging as set forth in claim 1, wherein: install on mount pad (12) the surface and run through access door (125) of installation cavity (121) lateral wall, just install the bolt on access door (125).

6. The mixing apparatus for carbon production facilitating quantitative charging as set forth in claim 1, wherein: feed inlet (215) are articulated rotate lid (2151), just be provided with screw hole (2152) on feed inlet (215), rotate lid (2151) and go up threaded connection and run through rotate lid (2151) and with screw hole (2152) matched with locking screw (2153), just rotate lid (2151) lower surface paste have with feed inlet (215) matched with sealed pad (2154).

7. The mixing apparatus for carbon production facilitating quantitative charging as set forth in claim 1, wherein: the rotating angle range of the rotating cylinder (24) is 0-270 degrees.

Images