CN213791166U - Material mixing device for inorganic chemistry experiments - Google Patents

Abstract

The utility model discloses a material mixing arrangement for inorganic chemistry experiments, including supporting baseplate, vibrator, mixing drum main part, mixed top cap, motor support piece, closing cap, apron handle, control panel, mixing arrangement, supporting leg, guide post, universal wheel and damping spring, vibrator locates on the supporting baseplate, vibrator includes mixing drum bottom plate, shock dynamo, buffer spring, direction bracing piece and connecting piece, on the supporting baseplate was located to buffer spring one end, on the mixing drum bottom plate was located to the buffer spring other end, on the mixing drum main part was located to the connecting piece and sliding connection located the direction bracing piece, mixing arrangement included mixing motor, pivot, mixing vane, spacing ring, dead lever, connect flitch, discharging pipe and valve. The utility model belongs to the technical field of the material mixing device, specifically be a material mixing device for inorganic chemistry experiments with vibrator, convenient removal.

Description

Material mixing device for inorganic chemistry experiments

Technical Field

The utility model belongs to the technical field of the material mixing device, specifically indicate a material mixing device for inorganic chemistry experiments.

Background

Inorganic chemistry is the chemistry of research inorganic compound, different materials often need to be used in the experimentation, this needs to use various materials after mixing, and present material mixing arrangement for inorganic chemistry experiments, it is not enough to the mixture of material, need repeated stirring many times, inefficiency, inconvenient removal, and the not clean enough of misce bene material discharge, use when influencing the next misce bene material, cause the experimental result inaccurate, for this reason, we propose a material mixing arrangement for inorganic chemistry experiments to solve above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming prior art's defect, the utility model provides a material mixing device for inorganic chemistry experiments, the effectual current material mixing device for inorganic chemistry experiments in the market of having solved mixes insufficient problem, need not many times repeated stirring, and is efficient, and is equipped with the mobile device, and the convenient removal specifically is a material mixing device for inorganic chemistry experiments that is equipped with vibrator, convenient removal.

The utility model adopts the following technical scheme: the utility model relates to a material mixing device for inorganic chemistry experiments, which comprises a supporting bottom plate, a vibrator, a mixing barrel main body, a mixing top cover, a motor support piece, a sealing cover plate, a cover plate handle, a control panel, a mixing device, supporting legs, a guide pillar, a universal wheel and a damping spring, wherein the vibrator is arranged on the supporting bottom plate, the mixing barrel main body is arranged on the vibrator, the mixing top cover is arranged on the mixing barrel main body, the motor support piece is arranged on the mixing top cover, the sealing cover plate is hinged on the mixing top cover, the cover plate handle is arranged on the sealing cover plate, the control panel is arranged on the vibrator, the mixing device is arranged on the mixing barrel main body, the supporting legs are arranged on the supporting bottom plate, the guide pillar is connected on the supporting legs in a plugging manner, the universal wheel is arranged on the guide pillar, one end of the damping spring is arranged on the supporting bottom plate, the other end of the damping spring is arranged on the universal wheel, the vibration device comprises a mixing barrel bottom plate, a vibration motor, a buffer spring, a guide supporting rod and a connecting piece, the mixing barrel bottom plate is arranged on the mixing barrel main body, the vibration motor is arranged on the mixing barrel bottom plate, one end of the buffer spring is arranged on the supporting bottom plate, the other end of the buffer spring is arranged on the mixing barrel bottom plate, the guide supporting rod is arranged on the supporting bottom plate, the connecting piece is arranged on the mixing barrel main body and is in sliding connection with the guide supporting rod, the mixing device comprises a mixing motor, a rotating shaft, a mixing blade, a limiting ring, a fixing rod, a material receiving plate, a material discharging pipe and a valve, the mixing motor is arranged on a motor supporting piece and penetrates through a motor supporting plate, the rotating shaft is arranged on the mixing motor and penetrates through a mixing top cover, the mixing blade is arranged on the rotating shaft, and the limiting ring is hinged on the rotating shaft, one end of the fixed rod is arranged on the limiting ring, the other end of the fixed rod is arranged on the mixing barrel main body, the material receiving plate is arranged on the mixing barrel main body and is arranged below the rotating shaft, one end of the discharging pipe is arranged on the material receiving plate, the other end of the discharging pipe is arranged on the mixing barrel main body and penetrates through the mixing barrel main body, the valve is hinged on the discharging pipe, the supporting bottom plate plays a role in supporting, the vibrating device plays a role in vibrating, the mixing barrel main body plays a role in supporting, the mixing top cover plays a role in supporting and sealing, the motor supporting piece plays a role in supporting, the sealing cover plate plays a role in sealing, the cover plate handle plays a role in holding, the control panel plays a role in controlling, the mixing device plays a role in mixing, the supporting legs play a role in supporting, and the guide support column plays a role in guiding, the universal wheel plays the effect of removal, damping spring plays absorbing effect, mixing barrel bottom plate plays the effect of support, shock dynamo plays the effect of vibrations, damping spring plays the effect of buffering, the guide support pole plays the effect of support and direction, the connecting piece plays the effect of connecting, mixing motor plays driven effect, the pivot plays support and pivoted effect, mixing vane plays mixed effect, the spacing ring plays spacing effect, the dead lever plays fixed effect, connect the flitch to play the effect of connecing the material, the discharging pipe plays the effect of the ejection of compact, the valve plays the effect of the control ejection of compact.

Further, damping spring locates between universal wheel and the supporting baseplate, shock dynamo locates between blending hopper bottom plate and the blending hopper main part, the connecting piece is located between blending hopper main part and the direction bracing piece, mixing dynamo is located to the pivot and is connect between the flitch, mixing vane locates between pivot and the blending hopper main part.

Further, mix top cap and supporting baseplate and be parallel arrangement, the supporting leg is perpendicular setting with the supporting baseplate, the direction pillar is coaxial setting with the supporting leg, damping spring is perpendicular setting with the supporting leg, buffer spring is perpendicular setting with the supporting baseplate, the direction bracing piece is perpendicular setting with the supporting baseplate, the connecting piece is perpendicular setting with the supporting baseplate, the dead lever is parallel arrangement with the supporting baseplate, the mixing drum bottom plate is parallel arrangement with the supporting baseplate, the pivot is perpendicular setting with the dead lever.

Further, the supporting baseplate is the cylinder setting, the mixing drum main part is hollow cylinder setting, the supporting leg is the cylinder setting, the mixing drum bottom plate is the cylinder setting, the direction bracing piece is one side open-ended cuboid setting, the pivot is the cylinder setting, the dead lever is the cylinder setting.

Further, motor support piece is the setting of U type, the semicircular in shape of closed cover plate sets up, the apron handle is the setting of ball-type, the connecting piece is the setting of T type, mixing blade is the setting of heliciform sheet metal, the discharging pipe is the setting of L type.

Further, the closing cover is equipped with two sets ofly, the apron handle is equipped with two sets ofly, the supporting leg is equipped with four groups, the guide post is equipped with four groups, the universal wheel is equipped with four groups, damping spring is equipped with four groups, buffer spring is equipped with a plurality of groups, the guide support pole is equipped with three groups, the connecting piece is equipped with three groups, the dead lever is equipped with four groups.

Adopt above-mentioned structure the utility model discloses the beneficial effect who gains as follows: this scheme is a material mixing arrangement for inorganic chemistry experiments, the effectual current material mixing arrangement for inorganic chemistry experiments mixes insufficient problem in the existing market of having solved, need not repetitious stirring many times, and is efficient, and is equipped with the mobile device, and the convenient removal specifically is a material mixing arrangement for inorganic chemistry experiments that is equipped with vibrator, convenient removal.

Drawings

FIG. 1 is a schematic view of the overall structure of a material mixing device for inorganic chemistry experiments according to the present invention;

fig. 2 is the utility model discloses a material mixing arrangement's for inorganic chemistry experiments cross-sectional view.

Wherein, 1, supporting baseplate, 2, vibrator, 3, mixing drum main part, 4, mix the top cap, 5, motor support piece, 6, closing cover board, 7, the apron handle, 8, control panel, 9, mixing arrangement, 10, the supporting leg, 11, the guide pillar, 12, the universal wheel, 13, damping spring, 14, mixing drum bottom plate, 15, vibrator, 16, buffer spring, 17, the direction bracing piece, 18, the connecting piece, 19, mixing motor, 20, the pivot, 21, mixing vane, 22, the spacing ring, 23, the dead lever, 24, connect the flitch, 25, the discharging pipe, 26, the valve.

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in FIGS. 1-2, the utility model relates to a material mixing device for inorganic chemistry experiments, which comprises a supporting bottom plate 1, a vibrator 2, a mixing barrel main body 3, a mixing top cover 4, a motor support member 5, a sealing cover plate 6, a cover plate handle 7, a control panel 8, a mixing device 9, a support leg 10, a guide pillar 11, a universal wheel 12 and a damping spring 13, wherein the vibrator 2 is arranged on the supporting bottom plate 1, the mixing barrel main body 3 is arranged on the vibrator 2, the mixing top cover 4 is arranged on the mixing barrel main body 3, the motor support member 5 is arranged on the mixing top cover 4, the sealing cover plate 6 is hinged on the mixing top cover 4, the cover plate handle 7 is arranged on the sealing cover plate 6, the control panel 8 is arranged on the vibrator 2, the mixing device 9 is arranged on the mixing barrel main body 3, the support leg 10 is arranged on the supporting bottom plate 1, the guide pillar 11 is connected on the support leg 10 in a plugging manner, the universal wheel 12 is arranged on the guide pillar 11, one end of a damping spring 13 is arranged on the support base plate 1, the other end of the damping spring 13 is arranged on the universal wheel 12, the vibration device 2 comprises a mixing barrel bottom plate 14, a vibration motor 15, a buffer spring 16, a guide support rod 17 and a connecting piece 18, the mixing barrel bottom plate 14 is arranged on the mixing barrel main body 3, the vibration motor 15 is arranged on the mixing barrel bottom plate 14, one end of the buffer spring 16 is arranged on the support base plate 1, the other end of the buffer spring 16 is arranged on the mixing barrel bottom plate 14, the guide support rod 17 is arranged on the support base plate 1, the connecting piece 18 is arranged on the mixing barrel main body 3 and is arranged on the guide support rod 17 in a sliding connection manner, the vibration motor 15 is arranged, the mixing device 9 comprises a mixing motor 19, a rotating shaft 20, Mixing vane 21, spacing ring 22, dead lever 23, connect flitch 24, discharging pipe 25 and valve 26, hybrid motor 19 is located on motor support piece 5 and is run through the motor backup pad setting, pivot 20 is located on hybrid motor 19 and is run through the setting of mixing top cap 4, mixing vane 21 is located on pivot 20, spacing ring 22 is articulated to be located on pivot 20, 23 one end of dead lever is located on spacing ring 22, the dead lever 23 other end is located on mixing bucket main part 3, connect flitch 24 to locate on mixing bucket main part 3 and locate the below of pivot 20, discharging pipe 25 one end is located and is connect on flitch 24, the discharging pipe 25 other end is located on mixing bucket main part 3 and is run through mixing bucket main part 3 setting, valve 26 is articulated to be located on discharging pipe 25.

Damping spring 13 locates between universal wheel 12 and the supporting baseplate 1, shock dynamo 15 locates between blending bin bottom plate 14 and blending bin main part 3, connecting piece 18 locates between blending bin main part 3 and guide support bar 17, mixing dynamo 19 and connect between flitch 24 are located to pivot 20, mixing blade 21 locates between pivot 20 and the blending bin main part 3.

Mix top cap 4 and supporting baseplate 1 and be parallel arrangement, supporting leg 10 is perpendicular setting with supporting baseplate 1, guide pillar 11 is coaxial setting with supporting leg 10, damping spring 13 is coaxial setting with supporting leg 10, buffer spring 16 is perpendicular setting with supporting baseplate 1, guide support bar 17 is perpendicular setting with supporting baseplate 1, connecting piece 18 is perpendicular setting with supporting baseplate 1, dead lever 23 is parallel arrangement with supporting baseplate 1, mixing barrel bottom plate 14 is parallel arrangement with supporting baseplate 1, pivot 20 is perpendicular setting with dead lever 23.

Supporting baseplate 1 is the cylinder setting, mixing drum main part 3 is hollow cylinder setting, supporting leg 10 is the cylinder setting, mixing drum baseplate 14 is the cylinder setting, direction bracing piece 17 is one side open-ended cuboid setting, pivot 20 is the cylinder setting, dead lever 23 is the cylinder setting.

The utility model discloses a motor support piece, including motor support piece 5, sealed apron 6, apron handle 7, connecting piece 18, mixing blade 21, discharging pipe 25, connecting piece 18, connecting piece and connecting piece are T type setting, mixing blade 21 is the setting of heliciform sheet metal, the setting of discharging pipe 25 is the L type.

The utility model discloses a solar water heater, including closing cover 6, apron handle 7, supporting leg 10, direction pillar 11, universal wheel 12, damping spring 13, buffer spring 16, direction bracing piece 17, connecting piece 18, dead lever 23, and the supporting leg is equipped with four groups, closing cover 6 is equipped with two sets ofly, the supporting leg is equipped with four groups, direction pillar 11 is equipped with four groups, universal wheel 12 is equipped with four groups, damping spring 13 is equipped with four groups, buffer spring 16 is equipped with a plurality of groups, direction bracing piece 17 is equipped with three groups, connecting piece 18 is equipped with three groups, dead lever 23 is equipped with four groups.

When the device is used specifically, a user pushes the whole device to a laboratory by using the universal wheel 12, and the power supply is connected, the mixing motor 19 arranged on the motor support piece 5 is opened through the control panel 8, the mixing motor 19 drives the rotating shaft 20 to rotate under the limit of the fixed rod 23 and the limit ring 22, the spiral mixing blade 21 rotates along with the rotating shaft 20, then the vibrating motor 15 is opened through the control panel 8, the vibrating motor 15 arranged on the mixing barrel bottom plate 14 generates vibration and transmits the vibration to the mixing barrel main body 3, the mixing barrel main body 3 vibrates up and down along the direction of the guide support rod 17 under the action of the connecting piece 18, the impact on the support bottom plate 1 is reduced by using the buffer spring 16, then the user grasps the cover plate handle 7 to open the closed cover plate 6 hinged on the mixing top cover 4, and then pours experimental materials into the mixing barrel main body 3, the material for experiments mixes under mixing vane 21's stirring, and under vibrator 2's effect, make the material for experiments misce bene back, fall into and connect in flitch 24, the user can be through setting up giving out of the experiment material after the valve 26 control on discharging pipe 25 mixes, whole device is in the work engineering, because vibrator 2 can produce great vibrations, in order to make whole device reduce the noise and remain stable, utilize supporting leg 10 of setting on supporting baseplate 1 to compress damping spring 13 from top to bottom along the direction of guide post pillar, make whole device remain stable under damping spring 13's effect, above just be whole inorganic chemistry experiment material mixing arrangement 9's use.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (6)

1. The utility model provides a material mixing arrangement for inorganic chemistry experiments which characterized in that: comprises a supporting base plate, a vibration device, a mixing barrel main body, a mixing top cover, a motor supporting piece, a sealing cover plate, a cover plate handle, a control panel, a mixing device, a supporting leg, a guide pillar, a universal wheel and a damping spring, wherein the vibration device is arranged on the supporting base plate, the mixing barrel main body is arranged on the vibration device, the mixing top cover is arranged on the mixing barrel main body, the motor supporting piece is arranged on the mixing top cover, the sealing cover plate is hinged on the mixing top cover, the cover plate handle is arranged on the sealing cover plate, the control panel is arranged on the vibration device, the mixing device is arranged on the mixing barrel main body, the supporting leg is arranged on the supporting base plate, the guide pillar is connected on the supporting leg in a plugging manner, the universal wheel is arranged on the guide pillar, one end of the damping spring is arranged on the supporting base plate, the other end of the damping spring is arranged on the universal wheel, the vibrating device comprises a mixing barrel bottom plate, a vibrating motor, a buffer spring, a guide supporting rod and a connecting piece, wherein the mixing barrel bottom plate is arranged on a mixing barrel main body, the vibrating motor is arranged on the mixing barrel bottom plate, one end of the buffer spring is arranged on the supporting bottom plate, the other end of the buffer spring is arranged on the mixing barrel bottom plate, the guide supporting rod is arranged on the supporting bottom plate, the connecting piece is arranged on the mixing barrel main body and is arranged on the guide supporting rod in a sliding connection manner, the mixing device comprises a mixing motor, a rotating shaft, a mixing blade, a limiting ring, a fixed rod, a material receiving plate, a discharging pipe and a valve, the mixing motor is arranged on a motor supporting piece and penetrates through the motor supporting plate, the rotating shaft is arranged on the mixing motor and penetrates through a mixing top cover, the mixing blade is arranged on the rotating shaft, the limiting ring is hinged on the rotating shaft, and one end of the fixed rod is arranged on the limiting ring, the dead lever other end is located in the blending hopper main part, connect the flitch to locate in the blending hopper main part and locate the below of pivot, discharging pipe one end is located on connecing the flitch, the discharging pipe other end is located in the blending hopper main part and is run through the blending hopper main part setting, the valve is articulated to be located on the discharging pipe.

2. The material mixing device for inorganic chemistry experiments according to claim 1, characterized in that: damping spring locates between universal wheel and the supporting baseplate, shock dynamo locates between blending hopper bottom plate and the blending hopper main part, the connecting piece is located between blending hopper main part and the direction bracing piece, mixing dynamo is located in the pivot and is connect between the flitch, mixing vane locates between pivot and the blending hopper main part.

3. The material mixing device for inorganic chemistry experiments according to claim 2, characterized in that: the utility model discloses a support device for mixing tank, including the top cap, the supporting leg, direction pillar and supporting bottom plate, damping spring, buffer spring, supporting bottom plate, connecting piece, dead lever and supporting bottom plate, mixing tank bottom plate and supporting bottom plate are parallel arrangement, the supporting leg is perpendicular setting with the supporting bottom plate, the direction pillar is coaxial setting with the supporting leg, damping spring is coaxial setting with the supporting leg, buffer spring is perpendicular setting with the supporting bottom plate, the direction bracing piece is perpendicular setting with the supporting bottom plate, the connecting piece is perpendicular setting with the supporting bottom plate, the dead lever is parallel arrangement with the supporting bottom plate, mixing tank bottom plate is parallel arrangement with the supporting bottom plate, the pivot is perpendicular setting with the dead lever.

4. The material mixing device for inorganic chemistry experiments according to claim 3, characterized in that: the utility model discloses a mixing drum, including mixing drum bottom plate, supporting base plate, supporting leg, cylinder setting, guide support pole, dead lever, one side open-ended cuboid setting, the supporting base plate is the cylinder setting, the mixing drum main part is hollow cylinder setting, the supporting leg is the cylinder setting, the mixing drum bottom plate is the cylinder setting, the guide support pole is one side open-ended cuboid setting, the pivot is the cylinder setting, the dead lever is the cylinder setting.

5. The material mixing device for inorganic chemistry experiments, according to claim 4, is characterized in that: the motor support piece is U type setting, the semicircular setting of closing the apron, the apron handle is the ball-type setting, the connecting piece is T type setting, mixing blade is heliciform sheet metal setting, the discharging pipe is the setting of L type.

6. The material mixing device for inorganic chemistry experiments according to claim 5, characterized in that: the utility model discloses a damping device, including closing apron, supporting leg, direction pillar, damping spring, buffer spring, direction bracing piece, closing apron is equipped with two sets ofly, the apron handle is equipped with two sets ofly, the supporting leg is equipped with four groups, the direction pillar is equipped with four groups, the universal wheel is equipped with four groups, damping spring is equipped with four groups, buffer spring is equipped with a plurality of groups, the direction bracing piece is equipped with three groups, the connecting piece is equipped with three groups, the dead lever is equipped with four groups.

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