CN202518641U - Quantitative taking tank - Google Patents

Abstract

The utility model provides a quantitative taking tank, comprising a tank body (1). A discharging opening (2) is formed on the tank body (1); a quantitative discharging device for quantitatively discharging a liquid material in the tank body (1) is arranged on the tank body (1) at the discharging opening (2); and the quantitative discharging device comprises a pressing mechanism which is used for forming a linear motion through pressing, an intermediate conversion mechanism for converting the linear motion formed by the pressing mechanism into rotation motion, and a rotation motion output mechanism which synchronously rotates with the intermediate conversion mechanism. The quantitative taking tank can be used for quantitatively discharging the liquid material, has simplicity and convenience in operation, and has no need of a spoon.

Description

The quantitative fetching jar

Technical field:

The utility model relate to a kind of be used to store up get the tank body that has the material of flowing power like powder particle etc., specifically be a kind of quantitative fetching jar.

Background technology:

In the daily life, often need use the material that some have flowable, like powder particle, as the kitchen condiment product of salt, monosodium glutamate, pepper powder and so on, and for example as other powder particles of laundry soap powder, milk powder and so on.And these powder particles mostly are contained in the tank body, during use, adopt utensils such as spoon to take usually.In the whole operation process, need with the hands the lid of tank body to be opened earlier, could begin then to dip with spoon; And during the powder particle in pouring out spoon, need spoon is repeatedly shaken and could powder particle be poured out, and dip finish after; Could the lid of tank body be covered after also need spoon being replaced; The whole process operation program of getting up is many, and needs the both hands compounding practice, is not very convenient.The more important thing is that the powder particle amount that spoon dips at every turn is fixing, have more and lack; Human element is more; More particularly need relatively accurately quantitative occasion, adopt spoon to dip, sometimes dip often as salt and so on; Sometimes dip fewerly, then can have a strong impact on the degree of saltiness degree of dish.

Also have in addition spoon is installed in the structure on the tank body, though the tank body of the type also can be accomplished one-handed performance, its structure is more complicated mostly, because of spoon still exists, still needs hand shake or upset to pour out the material in the spoon in the operation.

The utility model content:

The utility model technical issues that need to address are: provide a kind of and can quantitatively discharge material with flowing power, and quantitative fetching jar simple, convenient, that do not need spoon.

For solving the problems of the technologies described above; The utility model adopts a kind of like this quantitative fetching jar; It comprises a tank body; Described tank body forms discharging opening; The constant volume discharge device that the material dosing that has flowing power in the tank body is discharged is housed on the tank body at described discharging opening place, described constant volume discharge device comprise through push form straight-line pressing mechanism, with the formed straight-line motion of pressing mechanism be converted into middle the transformation mechanism that rotatablely moves, with the middle transformation mechanism output mechanism that rotatablely moves of rotation synchronously.

Described discharging opening is surrounded and big up and small down exit skirt shape by the training wall that two assembly walls and two that are oppositely arranged are oppositely arranged, and described constant volume discharge device is positioned at the less bottom of discharging opening size.

The madial wall of described assembly wall and training wall and tank body bottom is one-body molded.

Described pressing mechanism comprises press cover and extrusion spring; Transformation mechanism comprises in the middle of described changes core, continuous pivoted housing and retracing spring; The described output mechanism that rotatablely moves comprises rotor, and this rotor is made up of rotating shaft and the rotary head that is packed in the rotating shaft; The circumferential stop collar of described press cover is located on the sidewall of tank body, prevents that by being covered with press cover from axially shifting out the limit baffle ring of tank body, is in the press cover to be evenly distributed in first extruding block that the polylith end has first compressive plane; Described continuous pivoted housing is set in and changes on the core and an end is packed on the assembly wall, also is in the continuous pivoted housing to be evenly distributed in that quantity equates with first extruding block and the end has second extruding block of second compressive plane; Described commentaries on classics core forms respectively and pushes the inclination compressive plane that matches with first compressive plane of first extruding block and second compressive plane of second extruding block; Described extrusion spring is set on the continuous pivoted housing and two ends offset with assembly wall and press cover respectively; Described rotary head radially is extended with the rotor that quantity and first extruding block equate and also be circumference uniform distribution; Rotary head is positioned at the bottom of the discharging opening that assembly wall and training wall surround and matches with shape, the size of discharging opening bottom, rotating shaft be rotatably installed on the assembly wall and an end also axially activity be plugged in the circumferential spacing hole that changes on the core and and rotate synchronously with the commentaries on classics core; Described retracing spring is set in the rotating shaft and two ends offset with assembly wall and commentaries on classics core respectively.

Described circumferential spacing hole is a strip shape through hole, is plugged in an end of the rotating shaft in the strip shape through hole and size, the shape of strip shape through hole and matches.

Described rotor is curved, and the bottom of described training wall is the arcwall that matches with rotor shape, size.

The top of described tank body also is bolted with cover.

The utility model compared with prior art; Have the following advantages: the constant volume discharge device that the quantitative fetching jar of the utility model is discharged through the material dosing that in the discharging opening place of tank body is equipped with tank body, has flowing power; And constant volume discharge device comprise through push form straight-line pressing mechanism, with the formed straight-line motion of pressing mechanism be converted into middle the transformation mechanism that rotatablely moves, with the middle transformation mechanism output mechanism that rotatablely moves of rotation synchronously; The setting of this constant volume discharge device all can quantitatively be discharged the material that has flowing power in the tank body at every turn like this; The discharge rate of material is fixed; Can not occur having in the prior art that few phenomenon is arranged more, satisfy the user demand that needs the quantitative fetching material in the actual life.The tank body that is provided with constant volume discharge device in addition is in the whole operation process; Program obtains reducing, and whole process only needs just can realize quantitatively discharging material through pushing pressing mechanism, and it is simple, convenient to operate; And need not to be provided with spoon and also need not use spoon, can realize one-handed performance.

As improvement; Described discharging opening is surrounded and big up and small down exit skirt shape by the training wall that two assembly walls and two that are oppositely arranged are oppositely arranged; Described constant volume discharge device is positioned at the less bottom of discharging opening size, and the material drainage that up big and down small exit skirt shape is convenient to have flowing power in the tank body is to the constant volume discharge device place.

As further improvement, the madial wall of described assembly wall and training wall and tank body bottom is one-body molded, has both strengthened the intensity of assembly wall and training wall, is convenient to the one machine-shaping in the course of processing of assembly wall and training wall and tank body again.

As further improvement, described pressing mechanism comprises press cover and extrusion spring; Transformation mechanism comprises in the middle of described changes core, continuous pivoted housing and retracing spring; The described output mechanism that rotatablely moves comprises rotor, and this rotor is made up of rotating shaft and the rotary head that is packed in the rotating shaft; The circumferential stop collar of described press cover is located on the sidewall of tank body, prevents that by being covered with press cover from axially shifting out the limit baffle ring of tank body, is in the press cover to be evenly distributed in first extruding block that the polylith end has first compressive plane; Described continuous pivoted housing is set in and changes on the core and an end is packed on the assembly wall, also is in the continuous pivoted housing to be evenly distributed in that quantity equates with first extruding block and the end has second extruding block of second compressive plane; Described commentaries on classics core forms respectively and pushes the inclination compressive plane that matches with first compressive plane of first extruding block and second compressive plane of second extruding block; Described extrusion spring is set on the continuous pivoted housing and two ends offset with assembly wall and press cover respectively; Described rotary head radially is extended with the rotor that quantity and first extruding block equate and also be circumference uniform distribution; Rotary head is positioned at the bottom of the discharging opening that assembly wall and training wall surround and matches with shape, the size of discharging opening bottom, rotating shaft be rotatably installed on the assembly wall and an end also axially activity be plugged in the circumferential spacing hole that changes on the core and and rotate synchronously with the commentaries on classics core; Described retracing spring is set in the rotating shaft and two ends offset with assembly wall and commentaries on classics core respectively.Adopt the constant volume discharge device integral body of above structure only to form by press cover, commentaries on classics core, continuous pivoted housing, rotor, extrusion spring and retracing spring; Parts are few; Compact overall structure, produce the mode that rotatablely moves and realized the quantitative discharge of flowable masses in the tank body through pushing the extruding inclined-plane, whole process is pushed press cover through one hand and just can be realized, it is simple more, convenient to operate; And need not to be provided with spoon, the whole operation process need not used spoon yet.

As further improvement, described circumferential spacing hole is a strip shape through hole, and an end that is plugged in the rotating shaft in the strip shape through hole matches with size, the shape of strip shape through hole, and circumferentially circumferentially spacing reliable the and processing of spacing hole is got up simple, conveniently.

As further improvement; Described rotor is curved; The bottom of described training wall is the arcwall that matches with rotor shape, size; The rotor of arc with have the training wall bottom of arcwall, both assemble, and post gap is little, cooperate degree is high, has the spilling of material of flowing power when more being prone to prevent to leave standstill in the tank body.

As further improvement, the top of described tank body also is bolted with cover, is convenient to have in the tank body can of the material of flowing power.

Description of drawings:

Fig. 1 is the main TV structure scheme drawing of the quantitative fetching jar of the utility model.

Fig. 2 is the first orientation semi-sictional view structural representation of the quantitative fetching jar of the utility model.

Fig. 3 is the semi-sictional view structural representation after the quantitative fetching jar of the utility model removes extrusion spring.

Fig. 4 is the A place structure for amplifying scheme drawing among Fig. 3.

Fig. 5 is the sectional structure scheme drawing of continuous pivoted housing of the quantitative fetching jar of the utility model.

Fig. 6 is the second orientation semi-sictional view structural representation of the quantitative fetching jar of the utility model.

Fig. 7 is the structural representation of press cover of the quantitative fetching jar of the utility model.

Fig. 8 is the structural representation of commentaries on classics core of the quantitative fetching jar of the utility model.

Fig. 9 is that the press cover of the quantitative fetching jar of the utility model has just begun to push the structural representation when changeing core.

Figure 10 is that the commentaries on classics core of the quantitative fetching jar of the utility model has just begun to push the structural representation when continuing pivoted housing.

Shown in the figure: 1, tank body, 2, discharging opening, 3, assembly wall, 3.1, draw-in groove, 4, training wall, 5, press cover, 5.1, limit baffle ring; 5.2, orienting lug, 6, change core, 6.1, the inclination compressive plane, 6.2, circumferential spacing hole, 7, continuous pivoted housing, 7.1, fixture block; 8, rotor, 9, extrusion spring, 10, retracing spring, 11, first extruding block, 11.1, first compressive plane, 12, rotating shaft; 13, rotary head, 13.1, rotor, 14, cover, 15, second extruding block, 15.1, second compressive plane, 16, guide groove.

The specific embodiment:

Below in conjunction with the accompanying drawing and the specific embodiment the utility model is described further.

Extremely shown in Figure 10 like Fig. 1; The quantitative fetching jar of the utility model; It comprises that one is used for the tank body 1 that can has the material of flowing power, and like powder particles such as can salt, this tank body 1 integral body is tubular; More reliable when placing for ease of tank body 1, the bottom of described tank body 1 forms the conical wall that diameter increases gradually.Described tank body 1 also forms a discharging opening 2, and in the present embodiment, described discharging opening 2 takes shape in the bottom of tank body 1.The constant volume discharge device that the material dosing that has flowing power in the tank body 1 is discharged is housed on the tank body 1 at described discharging opening 2 places.Described constant volume discharge device comprise through push form straight-line pressing mechanism, with the formed straight-line motion of pressing mechanism be converted into middle the transformation mechanism that rotatablely moves, with the middle transformation mechanism output mechanism that rotatablely moves of rotation synchronously.Described pressing mechanism is after pushing, and just rotating certain angle of output mechanism rotatablely moves.

In the present embodiment; Described discharging opening 2 is surrounded by the training wall 4 that two assembly walls 3 and two that are oppositely arranged are oppositely arranged; And the exit skirt shape that discharging opening that the training wall 4 that is oppositely arranged by two assembly walls 3 and two that are oppositely arranged surrounds 2 is big up and small down, described constant volume discharge device then is positioned at the less bottom of discharging opening 2 sizes.

As the improvement project of present embodiment, described assembly wall 3 is one-body molded with the madial wall of tank body 1 bottom with training wall 4, that is to say when machine-shaping tank body 1 assembly wall 3 and training wall 4 and tank body 1 machine-shaping simultaneously.

In the present embodiment, described pressing mechanism comprises press cover 5 and extrusion spring 9.Transformation mechanism comprises in the middle of described changes core 6, continuous pivoted housing 7 and retracing spring 10.The described output mechanism that rotatablely moves comprises a rotor 8, and this rotor 8 is made up of rotating shaft 12 and the rotary head 13 that is packed in the rotating shaft 12.Described press cover 5 circumferential stop collars are located on the sidewall of tank body 1 bottom; Wherein to be located on the sidewall of tank body 1 bottom be to realize through between the sidewall of tank body 1 bottom and assembly wall 3, guide groove 16 being set and orienting lug 5.2 is set on press cover 5 to press cover 5 circumferential stop collars; When pushing press cover 5, press cover 5 realizes that along guide groove 16 straight line moves.Secondly press cover 5 end of being positioned at tank body 1 also is provided with and prevents that press cover 5 from axially shifting out the limit baffle ring 5.1 of tank body 1, and this limit baffle ring 5.1 is also one-body molded with press cover 5, and orienting lug 5.2 then is arranged on this limit baffle ring 5.1.Also be in the press cover 5 in addition and be evenly distributed in first extruding block 11 that the polylith end has first compressive plane 11.1.In the present embodiment: first compressive plane 11.1 is the bevelled inclined-plane; The quantity of described first extruding block 11 is six, and these six first extruding blocks diapire from press cover 5 as shown in Figure 7 extends to lid mouthful direction, and near the tegmental wall setting.Described continuous pivoted housing 7 is set in and changes on the core 6 and an end is packed on the assembly wall 3, continuous pivoted housing 7 install as Fig. 2 and shown in Figure 4 be through draw-in groove 3.1 being set on the assembly wall 3, in the end of continuous pivoted housing 7 fixture block 7.1 that is clamped in the draw-in groove 3.1 being set and realizing installing.Also be in the described continuous pivoted housing 7 as shown in Figure 5 in addition and be evenly distributed in that quantity equates with first extruding block 11 and the end has second extruding block 15 of second compressive plane 15.1, in the present embodiment: second compressive plane 15.1 also is the bevelled inclined-plane; The quantity of described second extruding block 15 also is six.Described commentaries on classics core 6 as shown in Figure 8 form with second compressive plane 15.1 of first compressive plane 11.1 of first extruding block 11 and second extruding block 15 push mutually inclination compressive plane 6.1, the quantity of the compressive plane 6.1 that tilts in the present embodiment also is six.Described extrusion spring 9 is set on the continuous pivoted housing 7 and two ends offset with assembly wall 3 and press cover 5 respectively.Described rotary head 13 radially is extended with the rotor 13.1 that quantity and first extruding block 11 equate and be circumference uniform distribution; Rotary head 13 is positioned at the bottom of the discharging opening 2 that assembly wall 3 and training wall 4 surrounded and matches with shape, the size of discharging opening 2 bottoms; Rotating shaft 12 be rotatably installed on the assembly wall 3 and an end also axially activity be plugged in the circumferential spacing hole 6.2 that changes on the core 6 and with change core 6 and rotate synchronously; Axially activity is meant that rotating shaft 12 has axially movable process shaft 12 not move axially synchronously with changeing core 6 at commentaries on classics core 6, and 12 of rotating shafts are passed through circumferential spacing hole 6.2 with commentaries on classics core 6 and rotated synchronously.Described retracing spring 10 is set in the rotating shaft 12 and two ends offset with assembly wall 3 and commentaries on classics core 6 respectively.

Improvement project as present embodiment: described circumferential spacing hole 6.2 is a strip shape through hole, is plugged in an end of the rotating shaft 12 in the strip shape through hole and size, the shape of strip shape through hole and matches, and is promptly also elongated; Described rotor as shown in Figure 6 13.1 is curved, the arcwall of the bottom of described training wall 4 for matching with rotor 13.1 shapes, size; The top of described tank body 1 also is bolted with cover 14, and cover 14 can also adopt snapping, mode such as hinged to be connected the top of tank body 1.

Working process: one hand is held the bottom of tank body 1, pushes press cover 5 with thumb, and extrusion spring 9 is squeezed; First compressive plane 11.1 of first extruding block 11 in the press cover 5 touches and pushes the inclination compressive plane 6.1 that changes on the core 6 at this moment; Through the press fit of first compressive plane 11.1 with inclination compressive plane 6.1, change core 6 and slowly be extruded to form and rotate, rotor 8 then under the drive of changeing core 6 transfer core 6 rotate synchronously; The two adjacent rotors 13.1 of blocking discharging opening 2 in the rotary head 13 also begin to rotate with rotary head 13; Thereby the material with flowing power that remains between the following one or two adjacent rotor 13.1 that is close to is just fallen from discharging opening 2, this moment rotor 8 with change core 6 synchronously the angles of rotations be slightly less than the angle between two adjacent in the rotary head 13 rotors 13.1, unclamp press cover 5 subsequently; This moment is under the effect of extrusion spring 9; Press cover 5 homings begin to move to tank body 1 side-walls under the effect of retracing spring 10 and change core 6, in the process that moves; The inclination compressive plane 6.1 that changes core 6 touches and pushes second compressive plane 15.1 of second extruding block 15 in the continuous pivoted housing 7; Because of continuous pivoted housing 7 fixed (continuous pivoted housing 7 is packed on the assembly wall 3), change core 6 and begin to be rotated further after through inclination compressive plane 6.1 and second compressive plane, 15.1 press fit, and under the drive of commentaries on classics core 6; Rotor 8 transfer cores 6 continue to rotate synchronously; Next two adjacent rotor 13.1 just all turns to the position of blocking discharging opening 2 in the rotary head 13 this moment, and this moment, rotor 8 just equaled the angle between two rotors 13.1 adjacent in the rotary head 13 with the angle of commentaries on classics core 6 liang of subsynchronous rotations, so far accomplished whole quantitative discharge process.

The each press cover 5 of only need pushing of the quantitative fetching jar of the utility model just can realize quantitatively discharging the material with flowing power; Whole process one hand just can be realized operation, need not to be provided with spoon, also need not use spoon; Have advantage simply and easily, and reliable.The quantitative fetching jar of the utility model is highly suitable for needing quantitatively to use the occasion of the material with flowing power, like some powder particles, as salt, monosodium glutamate, pepper powder, milk powder, laundry soap powder etc.

Certainly after the rotor 8 of the quantitative fetching jar of the utility model as adopt not only has flexibility but also rubber-like material and forms; And be interference fit with assembly wall 3, the training wall 4 contacted positions at discharging opening 2 places and just can realize quantitatively discharging liquid material, like oil, vinegar etc.

Claims (7)

1. quantitative fetching jar; It comprises a tank body (1); Described tank body (1) forms discharging opening (2); It is characterized in that: the constant volume discharge device that the material dosing that has flowing power in the tank body (1) is discharged is housed on the tank body (1) that described discharging opening (2) is located, described constant volume discharge device comprise through push form straight-line pressing mechanism, with the formed straight-line motion of pressing mechanism be converted into middle the transformation mechanism that rotatablely moves, with the middle transformation mechanism output mechanism that rotatablely moves of rotation synchronously.

2. quantitative fetching jar according to claim 1; It is characterized in that: described discharging opening (2) is surrounded and big up and small down exit skirt shape by the training wall (4) that two assembly walls (3) and two that are oppositely arranged are oppositely arranged, and described constant volume discharge device is positioned at the less bottom of discharging opening (2) size.

3. quantitative fetching jar according to claim 2 is characterized in that: described assembly wall (3) and training wall (4) are one-body molded with the madial wall of tank body (1) bottom.

4. according to claim 1 or 3 described quantitative fetching jars, it is characterized in that: described pressing mechanism comprises press cover (5) and extrusion spring (9); Transformation mechanism comprises in the middle of described changes core (6), continuous pivoted housing (7) and retracing spring (10); The described output mechanism that rotatablely moves comprises a rotor (8), and this rotor (8) is by rotating shaft (12) and be packed in rotary head (13) formation in the rotating shaft (12); Described press cover (5) circumferentially stop collar is located on the sidewall of tank body (1); Press cover (5) is provided with and prevents that press cover (5) from axially shifting out the limit baffle ring (5.1) of tank body (1), is in the press cover (5) to be evenly distributed in first extruding block (11) that the polylith end has first compressive plane (11.1); Described continuous pivoted housing (7) is set in and changes that core (6) is gone up and an end is packed on the assembly wall (3), also is in the continuous pivoted housing (7) to be evenly distributed in that quantity equates with first extruding block (11) and the end also has second extruding block (15) of second compressive plane (15.1); Described commentaries on classics core (6) forms the inclination compressive plane (6.1) that pushes mutually with second compressive plane (15.1) of first compressive plane (11.1) of first extruding block (11) and second extruding block (15); Described extrusion spring (9) is set on the continuous pivoted housing (7) and two ends offset with assembly wall (3) and press cover (5) respectively; Described rotary head (13) radially is extended with the rotor (13.1) that quantity and first extruding block (11) equate and be circumference uniform distribution; Rotary head (13) is positioned at the bottom of the discharging opening (2) that assembly wall (3) and training wall (4) surrounded and matches with shape, the size of discharging opening (2) bottom, rotating shaft (12) be rotatably installed in that assembly wall (3) is gone up and an end also axially activity be plugged in the circumferential spacing hole (6.2) that changes core (6) and with change core (6) and rotate synchronously; Described retracing spring (10) is set in the rotating shaft (12) and two ends offset with assembly wall (3) and commentaries on classics core (6) respectively.

5. quantitative fetching jar according to claim 4 is characterized in that: described circumferential spacing hole (6.2) is a strip shape through hole, is plugged in an end of the rotating shaft (12) in the strip shape through hole and size, the shape of strip shape through hole and matches.

6. quantitative fetching jar according to claim 5 is characterized in that: described rotor (13.1) is curved, and the bottom of described training wall (4) is the arcwall that matches with rotor (13.1) shape, size.

7. quantitative fetching jar according to claim 6 is characterized in that: the top of tank body (1) also is bolted with cover (14).

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