CN113245157A

CN113245157A - Hand-held type developments mix crowded mucilage binding and put

Info

Publication number: CN113245157A
Application number: CN202110767766.2A
Authority: CN
Inventors: 沈建韬; 邵兵
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-07-07
Filing date: 2021-07-07
Publication date: 2021-08-13

Abstract

The invention discloses a handheld dynamic mixing and glue extruding device, which comprises a handheld shell, a dynamic mixing and glue extruding mechanism and a driving mechanism, wherein the handheld shell is provided with a handle; the handheld shell comprises a propelling cavity, a containing cavity and a mixing cavity, wherein a hollow pipe is arranged in the center of the containing cavity and is used for penetrating a central shaft, and the containing cavity is partially or completely divided into a plurality of independent bins for containing mixture raw materials; the actuating mechanism is manual or electric mechanism, and the action of drive dynamic mixing rubber extrusion mechanism, crowded gluey piece is by advancing the chamber and making rectilinear motion to holding the chamber, and rotary motion is made to the center pin, and the mixture raw materials with independent storehouse simultaneously pushes into the hybrid chamber, and rotatory stirring when advancing the raw materials of stirring spare will last to push the raw materials mixing stirring of hybrid chamber to the material release hybrid chamber after will mixing. The invention realizes dynamic uniform stirring in the container and solves the problem of the existing glue mixer; the product has stronger adaptability; structural design is ingenious, easy operation pushes away gluey light, convenient to carry, and the mixture of gluing is abundant more even.

Description

Hand-held type developments mix crowded mucilage binding and put

Technical Field

The invention relates to a handheld dynamic mixing and glue extruding device, and belongs to the technical field of mixing and extruding devices.

Background

At present, the common usage of various component glues is that glue A and glue B which are respectively arranged in two or more containers (rubber tubes) are taken out (extruded) to a temporary container according to a certain proportion and are stirred and mixed by a manual stirring tool for use. This method of use is obviously problematic, for example: when the glue stirring device is used, a proper temporary container needs to be found for containing glue, the glue stirring needs to be time-consuming, hands or surrounding objects can be dirtied by a little attention, the accurate proportion is difficult to ensure by the amount of manual taking (extruding), and the like.

In order to solve many disadvantages in use, a static glue mixing device is provided in the prior art, patent No. CN 2008201070726, and a two-component glue mixer is provided, the mixing and glue extruding device is to mold and cast the outer walls of two circular glue containing tubes together, (the diameters of the two glue containing tubes are different according to the different glue usage ratios), an opening is provided at the front end of the two glue containing tubes, a static glue mixer (a multi-layer fixed irregular blocking piece is provided in the cavity of the static glue mixer) is installed at the opening at the front end of the two glue containing tubes during use, a push rod for a glue pushing gun is used to push glue forward from the bottom of the two glue containing tubes, and the glue is pushed into the static glue mixer and extruded after passing through the irregular blocking piece. The glue mixing mode is formed by means of blocking a two-component glue material in the conveying process by a multi-layer blocking piece and repeatedly changing the moving direction of the glue, and no moving piece is used for dynamically stirring the two glue materials in the process, so that the mixing effect of the glue mixing mode is obviously more sufficient and uniform than that of the glue mixing mode by dynamic stirring, and the mixing effect is not ideal under the conditions of large material viscosity difference and large mixing proportion. Moreover, the device has dispersed parts, laborious glue pushing and complex operation.

The requirements of the existing market are: all parts of the mixed glue extruding device and the glue containing box can be assembled into a whole, and the mixed glue extruding device is convenient to carry and easy to operate; the component glue can be dynamically stirred and mixed during use, so that the glue is more fully and uniformly mixed. However, none of the solutions disclosed in the prior art can solve these problems, and innovations are needed.

Disclosure of Invention

In order to solve the problems in the prior art, the invention aims to: the hand-held dynamic mixing and glue extruding device can combine (make) the glue containing box and the mixing and glue extruding device into a whole, so that the component glue materials with various proportions and viscosities can be dynamically stirred and mixed in the container when in use, and the carrying and the operation are convenient.

In order to achieve the purpose of the invention, the technical means adopted by the invention is as follows: a hand-held dynamic mixing and glue extruding device comprises a hand-held shell, a dynamic mixing and glue extruding mechanism and a driving mechanism;

the handheld shell comprises a propelling cavity, a containing cavity and a mixing cavity, wherein the propelling cavity is connected with the containing cavity, and the containing cavity is connected with the mixing cavity;

the center of the cavity is provided with a hollow pipe for inserting the central shaft, and the cavity outside the hollow pipe is partially or completely divided into a plurality of independent bins corresponding to the mixture raw material and used for containing the mixture raw material in the cavity;

actuating mechanism is manual or electric mechanism, through manual or electronic, the crowded gluey mechanism action of drive dynamic mixing, make the crowded gluey piece of the crowded gluey mechanism of dynamic mixing do linear motion to holding the chamber by advancing the chamber, rotary motion is made to the center pin, crowded gluey foot that the crowded gluey piece corresponds independent storehouse pushes the hybrid material in independent storehouse into the hybrid chamber simultaneously, the center pin is connected to the stirring piece that is located the hybrid chamber, rotary motion is made to following the center pin, the crowded gluey mechanism of dynamic mixing is rotatory stirring when advancing the raw materials, will continuously push the raw materials mixing stirring in the hybrid chamber, and the hybrid chamber is released to the material after will mixing.

Furthermore, the stirring piece is composed of a stirring shaft and a spiral stirring blade arranged on the stirring shaft, or a plurality of linear rods arranged on the stirring shaft, and the stirring shaft is connected with the central shaft in an inserting or threaded manner.

As a preferred design, a plurality of linear rods are distributed at intervals among different layers, the height of the plurality of linear rods in each layer is equal, the plurality of linear rods are uniformly distributed at intervals on the outer circumference of the stirring shaft, and the height size of the linear rods is gradually increased from the topmost layer to the bottommost layer.

As a design, the handheld shell is composed of a front nozzle cover, a middle shell and a rear cover, or is composed of a front nozzle cover, a middle shell and an electric component; a mixing cavity is arranged in the front nozzle cover, the middle shell is of an integrally formed structure, and a propelling cavity and a containing cavity are arranged in the shell; the middle shell is formed by connecting a propulsion cavity and an accommodating cavity, the propulsion cavity is internally provided with the propulsion cavity, and the accommodating cavity is internally provided with the accommodating cavity; the front nozzle cover is connected with one end of the cavity of the middle shell, and one end of the propulsion cavity of the middle shell is connected with the rear cover or the electric component or one part of the electric component.

In a more specific design, the front nozzle cover is formed by combining a cylindrical shell and a conical shell, and a glue outlet is formed in the small circular end of the conical shell; or a glue outlet with threads on the outer wall is arranged for additionally installing glue outlets with different diameters according to the requirement; one end of the cylindrical shell of the front nozzle cover is connected with the middle shell through the arranged internal threads or the buckle piece, and the inner cavity of the front nozzle cover is a mixing cavity.

As a specific design, in the containing cavity, a part or all of the cavity outside the hollow tube is divided into a plurality of independent bins corresponding to the mixture raw material for containing the mixture raw material, wherein the independent bins are as follows:

a plurality of partition plates are arranged between the outer wall of the hollow pipe and the inner wall of the containing cavity in the handheld shell, and the cavities in the containing cavity and outside the hollow pipe are completely divided to form a plurality of independent bins which are corresponding to the mixture raw materials and are used for containing the mixture raw materials;

or a glue containing box is inserted into the containing cavity, a hollow pipe is arranged at the center of the glue containing box, a plurality of partition plates are arranged between the outer wall of the hollow pipe and the inner wall of the glue containing box, and the glue containing box is divided into a plurality of independent bins corresponding to the mixture raw materials.

As the design of flourishing gluey box, flourishing gluey box one end is the glue pushing mouth that a plurality of and crowded gluey foot that crowded gluey piece that form after being cut apart by the baffle correspond, and the terminal surface of the other end sets up the end panel and seals, sets up the discharge opening on the end panel that corresponds every independent storehouse, and the discharge opening is direct to communicate with each other with the hybrid chamber, or sets up the discharging pipe on the discharge opening, sets up a ejection of compact separation blade between discharge opening and hybrid chamber, sets up the cover through-hole that corresponds the discharging pipe on the ejection of compact separation blade, and the discharge opening passes through the discharging pipe, overlaps the through-hole and communicates with each other with the hybrid chamber.

In a further optimized design, two long boss strips are axially arranged on the inner wall of one end of the holding cavity of the handheld shell and matched with grooves formed in the outer wall of the glue containing box, and the long boss strips are used for preventing the glue containing box from rotating when being inserted into the holding cavity.

In a further design, a step counter bore is arranged at the center of the discharging separation blade, a stirring shaft of the stirring piece penetrates through the step counter bore, and the stirring shaft is connected with the end face of one side of the discharging hole through an opening buckle.

As a specific design, the dynamic mixing and glue extruding mechanism comprises an extruding part, a glue extruding part and a central shaft, wherein the extruding part is inserted on the central shaft, a part of external threads are arranged on the outer circumference of the extruding part, the external threads are matched with the internal threads in the pushing cavity, the central shaft rotates to drive the extruding part to rotate, one end of the extruding part extrudes the glue extruding part, the rotating motion is converted into the linear motion of the glue extruding part in the shell, and meanwhile, a stirring part connected to one end of the central shaft is driven to rotate; the central shaft is formed by connecting a spline section and an optical axis section, the optical axis section is inserted in the hollow tube of the cavity, one end of the optical axis section is connected with the stirring piece, and the end part of the spline section is connected with the driving mechanism;

or the dynamic mixing and glue extruding mechanism comprises a pushing piece, a glue extruding piece, a central shaft and a planetary gear transmission, wherein the central shaft is an optical shaft, the central shaft respectively penetrates through a hollow pipe in the cavity and a central hole of the pushing piece, two ends of the central shaft are respectively connected with a stirring piece and a sun wheel shaft in the back cover or the shell of the electric component, the outer circumference of the pushing piece is provided with an external thread which is matched and connected with an internal thread arranged in a pushing cavity of the middle shell, the center of the pushing piece is provided with a spline groove which is spliced with a spline arranged on a planetary gear support shaft, one end surface of the planetary gear support shaft is provided with a planetary gear shaft, a planetary gear is arranged on the planetary gear shaft and is meshed with a sun gear arranged on the sun wheel shaft, a gear ring of the planetary gear transmission is arranged in the pushing cavity above the gear ring, the sun gear drives the planetary gear to rotate, and the planetary gear pushes the planetary gear support shaft to rotate through the meshing of the gear ring, the planet wheel support shaft is restrained by the limiting ring and does not generate axial motion, the planet wheel support shaft rotates to drive the pushing part to rotate and do axial motion, the extrusion glue-extruding part moves linearly from the pushing cavity to the containing cavity, and meanwhile, the central shaft rotates to drive the stirring part to form a differential motion with the stirring speed greater than the glue-extruding speed;

or the dynamic mixing and glue extruding mechanism comprises a glue extruding part, a central shaft and a planetary gear speed changer, wherein the planetary gear speed changer comprises a planetary gear support shaft, a gear ring arranged on the inner wall of one end of the middle shell, a sun gear shaft arranged in the back cover or the electric component shell, a limit ring is arranged in a propelling cavity above the gear ring, the planetary gear shaft is arranged on one end surface of the planetary gear support shaft, a planetary gear is arranged on the planetary gear shaft and is meshed with a sun gear arranged on the sun gear shaft, an external thread is arranged on the outer circumference of the planetary gear support shaft, the center of the glue extruding part is provided with a hole and an internal thread matched with the external thread of the planetary gear support shaft, the planetary gear support shaft is in threaded connection with the glue extruding part, a strip boss is arranged on the outer circumferential surface of the glue extruding part and is matched with a groove arranged on the inner wall of the propelling cavity shell, the central shaft is an optical axis, and the central shaft respectively penetrates through the hollow tube in the cavity and the central hole of the planetary gear support shaft, the two ends of the stirring piece are respectively connected with a sun wheel shaft in the shell of the rear cover or the electric component, the sun wheel drives the planet wheel to rotate, the planet wheel pushes the planet wheel support shaft to rotate through gear ring meshing, the planet wheel support shaft is restrained by the limiting ring and does not generate axial motion, the planet wheel support shaft rotates to drive the glue squeezing piece to do linear motion from the pushing cavity to the containing cavity, and meanwhile, the central shaft rotates to drive the stirring piece to form a differential motion with the stirring speed greater than the glue squeezing speed.

The glue squeezing piece comprises a glue squeezing rod and a glue squeezing foot arranged on the glue squeezing rod, the glue squeezing piece is a hollow cylinder or a hollow polyhedron, and a partition plate gap is arranged at the position, corresponding to the cavity section or the partition plate in the glue containing box, of the glue squeezing piece, so that the glue squeezing rod and the glue squeezing foot correspond to the independent bin and can be inserted and squeezed.

As a specific design of the rear cover, the rear cover is connected with the outer wall of one end of the middle shell by a buckle, and the manual driving part can rotate along the buckle groove of the outer wall of the middle shell; or the rear cover is internally provided with an integrally formed sun wheel and a sun wheel shaft, and the central shaft is connected with the sun wheel shaft and drives the central shaft to rotate.

As a preferred design, the rear cover is provided with a limit locking plate, the limit locking plate is provided with a boss facing the middle shell, a limit notch is arranged on the edge of the groove of the middle shell, and the boss is positioned in the notch in a locking state; the connecting line of the outer wall of the rear cover of the limiting locking plate is set to be a porous or groove connecting line, so that the limiting locking plate can be conveniently broken to unlock.

As the design of the electric assembly, the electric assembly comprises an assembly shell, a driving motor and a driving circuit, wherein the driving motor and the driving circuit are installed in the assembly shell, the driving circuit uses a battery or a mains supply as a power supply, the assembly shell is in a straight cylinder shape or a pistol handle shape and is installed at one end or one side of a middle shell, an output shaft of the driving motor is directly connected with a central shaft or is connected with the central shaft through a transition piece, and a power switch is arranged on the assembly shell.

The invention has the beneficial effects that:

1. the glue pushing and the stirring are carried out simultaneously, the raw materials are mixed and stirred in the mixing cavity while the glue is easily pushed, the single-container bearing is realized, the dynamic uniform stirring in the container is also realized, and the problem of the existing glue mixer is solved;

2. the multi-structure differential motion type electric bicycle can be driven manually or electrically, can move synchronously and differentially, realizes a multi-structure technical scheme with different costs, can meet the consumption requirements of different groups, and has stronger product adaptability;

3. the structure design is ingenious, the components are simple, the manufacture is facilitated, the operation is simple, the glue pushing is easy, and the mixing effect is ideal;

4. realized will mixing each part of crowded mucilage binding device and flourishing gluey box assembly and become an organic whole, convenient to carry, the component glues can dynamic stirring by oneself mix in the use, makes the mixture of gluing more abundant even.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic diagram of an explosive structure of example 1 of the present invention;

FIG. 2 is a schematic sectional view of a composite structure according to embodiment 1 of the present invention;

FIG. 3 is a schematic structural view of a glue container in accordance with embodiment 1 of the present invention;

FIG. 4 is a schematic view showing a connection of a part of the structure of embodiment 1 of the present invention;

FIG. 5 is a schematic diagram of an exploded structure of example 2 of the present invention;

FIG. 6 is a schematic sectional view of a composite structure according to embodiment 2 of the present invention;

FIG. 7 is a schematic diagram of an exploded structure of example 3 of the present invention;

FIG. 8 is a schematic view showing a connection of a part of the structure of embodiment 3 of the present invention;

FIG. 9 is a schematic view showing a connection of a part of the structure of embodiment 3 of the present invention;

fig. 10 is a schematic diagram of an explosive structure of embodiment 4 of the present invention.

In the figure: 1. rear cover, 11, spacing locking plate, 12, sun gear axle, 2, impeller, 3, center pin, 4, crowded gluey piece, 41, crowded gluey pole, 43, baffle clearance, 42, crowded gluey foot, 5, well casing, 6, flourishing gluey box, 61, discharging pipe, 62, baffle, 63, hollow tube, 64, independent storehouse, 7, baffle, 71, cover through-hole, 8, stirring piece, 81, (mixing) shaft, 9, preceding mouth lid, 10, planetary gear derailleur, 101, planet wheel support axle, 102, planet wheel axle, 103, planet wheel, 104, sun gear, 105, ring gear, 106, spacing ring.

Detailed Description

Example 1

As shown in fig. 1, 2 and 3, the present embodiment is a manual synchronous structure.

Comprises a rear cover 1, a pushing piece 2, a central shaft 3, a glue extruding piece 4, a middle shell 5, a glue containing box 6, a baffle 7, a stirring piece 8 and a front nozzle cover 9;

wherein, the rear cover 1, the middle shell 5 and the front nozzle cover 9 form a handheld shell;

the middle shell 5 comprises a propelling cavity and a containing cavity, a baffle 7 and a front nozzle cover 9 form a mixing cavity, the glue containing box 6 is inserted into the containing cavity, a hollow pipe 63 is arranged at the center of the glue containing box 6 and is used for inserting the central shaft 3, the cavity between the glue containing box 6 and the hollow pipe 63 is divided into 3 independent bins 64 corresponding to the mixture raw material by a partition plate 62 and used for containing the mixture raw material, and the front nozzle cover 9 is screwed at one end of the middle shell through threads so that one end of the containing cavity is connected with the mixing cavity;

description of the drawings: in this embodiment, the glue containing box is inserted into the containing cavity, the center of the glue containing box is a hollow tube, a plurality of partition plates are arranged between the outer wall of the hollow tube and the inner wall of the glue containing box, and the glue containing box is divided into a plurality of independent bins for containing raw materials according to the proportion of mixed materials. The bins of the independent bins can be made into the same volume (namely the sectional areas of the bins are the same in size) or different volumes (namely the sectional areas of the bins are different in size); the number of the independent bins with the same volume is determined according to the proportion of the component glue, and the size proportion of the two independent bins with different volumes is consistent with the proportion required by the mixed material; for example: the ratio of the mixed materials is 2:1, the number of the independent bins with the same volume is 3, and the sectional areas of the glue outlet holes corresponding to the independent bins are the same; if two independent bins with different volumes are manufactured, the volume ratio of the two independent bins is 2:1, and the sectional area of the glue outlet holes corresponding to the two independent bins is also 2: 1;

the pushing piece 2, the central shaft 3 and the glue extruding piece 4 form a dynamic mixing glue extruding mechanism;

the rear cover 1 is a manual driving part which is connected with the outer wall of one end of the middle shell 5 in a buckling mode and rotates along the buckling groove of the outer wall of the middle shell, a boss is arranged in the center of the inner part of the manual driving part, a spline groove is formed in the boss and connected with a spline on the central shaft 3, and the central shaft 3 is driven to rotate;

the outer wall of the rear cover 1 is provided with a limiting locking plate 11, the limiting locking plate 11 is provided with a bulge facing the containing cavity, a limiting notch is formed in the edge of the groove of the containing cavity, the bulge is positioned in the notch in a locking state, and a connecting line between the limiting locking plate 11 and the outer wall of the rear cover is a porous or grooved connecting line, so that the limiting locking plate 11 can be conveniently broken off for unlocking;

the pushing piece 2 is a cylinder, and the outer wall of the pushing piece is provided with external threads which are used for being matched with the internal threads in the pushing cavity;

one section of the central shaft 3 is provided with a spline, the other section of the central shaft is an optical axis, the optical axis section is inserted in the hollow tube, the center of the end surface of the central shaft is provided with a connecting hole for connecting a stirring piece 8, one end of the spline is inserted into the rear cover 1, a spline groove is arranged in the center hole of the pushing piece 2 and is in matching connection with the spline on the central shaft 3, as shown in figure 4, the spline section of the central shaft is connected with the rear cover 1 and the pushing piece 2 in an inserting way, and the spline section of the central shaft is sleeved with the glue extruding piece 4;

the glue squeezing piece 4 is of a tubular structure, a partition plate gap 43 is formed in the position, corresponding to the partition plate 62 in the glue containing box 6, of the tubular structure, so that the circumference of one end of the glue squeezing piece 4 is divided into 3 glue squeezing rods 41 along the axis direction, the glue squeezing feet 42 are arranged on the glue squeezing rods 41, and the 3 glue squeezing feet 42 respectively correspond to 3 independent bins in the glue containing box 6;

one end of the glue containing box 6 is a glue pushing opening which is formed after being divided by the partition board 62 and corresponds to the glue extruding foot 42 of the glue extruding piece 4, the end surface of the other end is provided with an end surface board for sealing, discharge holes are arranged on the end face plate corresponding to each independent bin, discharge pipes 61 are arranged on the discharge holes, a discharging separation blade 7 is arranged between the discharging hole and the mixing cavity, a sleeve through hole 71 corresponding to the discharging pipe 61 is arranged on the discharging separation blade 7, the discharging hole is communicated with the mixing cavity through the discharging pipe 61 and the sleeve through hole 71, two long bosses are axially arranged on the inner wall of one end of the holding cavity of the handheld shell and matched with a groove arranged on the outer wall of the glue containing box 6, a central point that is used for flourishing glue box to insert and holds the intracavity and does not take place to rotate, and ejection of compact separation blade 7 puts and sets up a step counter bore, and the (mixing) shaft 81 of stirring 8 alternates the step counter bore, on the terminal surface towards ejection of compact hole one side to the opening buckle connects (mixing) shaft 81.

During the use, at first break limiting locking plate 11 off with the fingers and thumb, this moment, back lid can be free rotatory along well casing outer wall buckle groove, back lid is rotatory, it rotates to drive center pin 3, the rotation of center pin 3, it rises to drive impeller 2 rotation, impeller 2 can extrude crowded gluey piece 4 this moment, make crowded gluey piece 4 make sharp ascending motion, 3 crowded gluey foot 42 pushes the hybrid chamber with the mixture raw materials in 3 independent storehouses simultaneously, center pin 3 is rotatory, synchronous drive is located the stirring piece 8 in the hybrid chamber, rotatory stirring in propulsive, the raw materials that will push the hybrid chamber mixes the stirring, and the hybrid chamber is released to the material after will mixing.

It should be noted that, although the structure of the glue extruding member 4 and the glue containing box 6 is shown as a tubular cylinder, it can also be made into a square, polygonal, etc. structure. Because the glue squeezing piece 4 moves linearly, the rotation lifting action of the pushing piece 2 is relied on, that is, the outer surface of the middle shell 5 can be in any shape, and the inner pushing cavity is made into a cylindrical cavity in the embodiment, the inner thread of the cylindrical cavity is matched with the outer thread of the pushing piece 2 to rotate, the glue squeezing piece 4 is not limited, the shape of the glue containing box 6 is also not limited, and the size of the glue squeezing foot 42 is larger than that of the glue squeezing rod 41, and the size and the shape are matched, so that only the glue squeezing foot 42 of the glue squeezing piece 4 and the glue pushing opening of the glue containing box 6 are needed.

It should be noted that the baffle 7 is designed to reduce the play range during rotation by allowing the stirring element 8 to be connected with the central shaft 3 in an inserting manner; simultaneously, baffle 7's structural design can also make and flourishing glue when the raw materials does not use up in the box 6, and the raw materials mixes and accomplishes on baffle 7, discards preceding nozzle cap, stirring piece and baffle, changes new and can continue to use, can not lead to unable reuse because the gluey discharge opening shutoff that will flourish glue box 6 that the raw materials mixes the formation.

It should be noted that, in this embodiment, a square column is adopted as the lower portion of the stirring element 8, and a square hollow tube is disposed at the end of the optical axis, so as to facilitate the stirring element to be inserted into the central shaft 3. For the connection between the stirring member 8 and the central shaft 3, various ways are available, for example, a screw thread is adopted, a cylinder is arranged at the lower part of the stirring member 8, an external thread is arranged on the outer circumference of the cylinder, a cylindrical hollow pipe is arranged at the end part of the optical axis of the central shaft, an internal thread is arranged in the hollow pipe, and the stirring member 8 is connected with the central shaft 3 through the internal and external screw threads. However, in this screw connection, it is necessary to consider the rotation direction of the central shaft and the stirring tool and the screwing direction of the screw.

In the present embodiment, the stirring blade of the stirring bar 8 is formed by combining a plurality of linear rods provided on the stirring shaft. The plurality of linear rods are distributed at intervals among different layers, the heights of the plurality of linear rods on each layer are equal, the plurality of linear rods are uniformly distributed on the outer circumference of the stirring shaft at intervals, and the height sizes of the linear rods are gradually increased from the topmost layer to the bottommost layer. The inventor believes through practice that the raw material extruded from the glue containing box 6 is stirred in the mixing cavity, and the spiral stirring blade can rapidly push the raw material out of the mixing cavity, so that the stirring is realized, but when the length of the mixing cavity is limited in a certain range, the stirring is incomplete. And a plurality of linear rods which are arranged at intervals in a layered manner can realize multiple-time and multi-layer mixing and stirring, and the stirring effect is more ideal. Of course, the stirring blades in the prior art have a plurality of structures, and the skilled person can also replace the stirring blades according to the needs, which does not reflect the creativity of the stirring blades.

Example 2

The hand-held dynamic mixing and glue-extruding device shown in fig. 5 and 6 comprises a rear cover 1, a pushing member 2, a central shaft 3, a glue-extruding member 4, a middle shell 5, a baffle 7, a stirring member 8 and a front nozzle cover 9;

wherein, the rear cover 1, the middle shell 5 and the front nozzle cover 9 form a handheld shell; the middle shell 5 comprises a propelling cavity and a containing cavity, and a baffle 7 and a front nozzle cover 9 form a mixing cavity;

one section of the central shaft 3 is provided with a spline, the other section of the optical axis and the hollow pipe are integrally formed, the partition plate 62 is installed on the central shaft to divide the containing cavity of the middle shell into 3 independent bins, the center of the end surface of the optical axis section is provided with a connecting hole for connecting the stirring piece 8 (in the embodiment, the stirring shaft 81 of the stirring piece 8 and the central shaft are integrally formed), one end of the spline is inserted into the rear cover 1, and a spline groove is arranged in the central hole of the pushing piece 2 and is connected with the spline on the central shaft 3 in a matching way;

the pushing piece 2 is a cylinder, the outer wall of the pushing piece 2 is provided with external threads and is used for being matched with the internal threads in the pushing cavity, the glue extruding piece 4 and the pushing piece 2 are integrally formed, a partition plate gap 43 is formed at the position, corresponding to the partition plate 62, of the glue extruding piece 4, the circumference of one end of the glue extruding piece 4 is divided into 3 glue extruding rods 41 along the axial direction, the glue extruding pins 42 are installed on the glue extruding rods 41, and the 3 glue extruding pins 42 respectively correspond to 3 independent bins in the accommodating cavity;

set up the end panel on the terminal surface of baffle 62, set up the discharge opening on the end panel that corresponds every independent storehouse, set up an ejection of compact separation blade 7 between discharge opening and hybrid chamber, set up the through-hole that corresponds the discharge opening on ejection of compact separation blade 7, the discharge opening is in when communicateing with the through-hole, communicate with each other with the hybrid chamber, when not using, the through-hole of ejection of compact separation blade 7 is located the end panel, closed by the end panel, in the time of the use, because rotate, it communicates with each other to rotate ejection of compact separation blade 7 to the through-hole and discharge opening, can set up a gag lever post on the end panel, set up a spacing groove on the ejection of compact separation blade, in service condition, the gag lever post is located the spacing groove, the end panel follows the center pin and rotates, the gag lever post rotates to the one end of spacing groove, drive ejection of compact separation blade 7 and rotate, at this moment, the through-hole is in complete communicating state with the discharge opening.

During the use, at first break limiting locking plate 11 off with the fingers and thumb, this moment, back lid can be free rotatory along well casing outer wall buckle groove, back lid is rotatory, it rotates to drive center pin 3, the rotation of center pin 3, it rises to drive impeller 2 rotation, extrusion piece 4 is rotatory rising also this moment, because independent storehouse comprises the baffle of installing on the center pin, it is rotatory that independent storehouse also can be followed, this has just formed extrusion piece 4 and has made sharp rising movement for independent storehouse, 3 extrusion foot 42 pushes into the hybrid chamber with the mixture raw materials in 3 independent storehouses simultaneously, center pin 3 is rotatory, the synchronous drive is located the stirring piece 8 in the hybrid chamber, rotatory stirring in the propulsive, will push the raw materials mixing stirring in the hybrid chamber, and the hybrid chamber is released to the material after will mixing.

In this embodiment, independent storehouse is cut apart with a plurality of baffles of center pin installation and is held the chamber and form, and the baffle is connected with holding the internal wall contact of chamber, and the benefit of this kind of design is simple structure, convenient production, but owing to with the integrative design of center pin, the baffle rotates with the center pin together, has partial raw materials to stop on holding the chamber body wall, forms a small amount of mixedly, of course, if to disposable, this kind of problem can be ignored.

Example 3

As shown in fig. 7, 8 and 9, the present embodiment is a manual differential structure.

Comprises a rear cover 1, a pushing piece 2, a central shaft 3, a glue extruding piece 4, a middle shell 5, a glue containing box 6, a baffle 7, a stirring piece 8, a front nozzle cover 9 and a planetary gear transmission 10;

the dynamic mixing glue squeezing mechanism consists of a pushing piece 2, a central shaft 3, a glue squeezing piece 4 and a planetary gear transmission 10, the central shaft 3 is an optical shaft, the central shaft 3 respectively penetrates through a hollow pipe in a cavity and a central hole of the pushing piece 2, two ends of the central shaft are respectively connected with a stirring piece 8 and a sun gear shaft 12 in a rear cover 1, an external thread is arranged on the outer circumference of the pushing piece 2 and is matched and connected with an internal thread arranged in a pushing cavity of a middle shell 5, a spline groove is arranged at the center of the pushing piece 2 and is inserted with a spline arranged on a planetary gear support shaft 101, a planetary gear shaft 102 is arranged on one end surface of the planetary gear support shaft 101, a planetary gear 103 is arranged on the planetary gear shaft 102 and is meshed with a sun gear 104 arranged on the sun gear shaft 12, a gear ring 105 of the planetary gear transmission 10 is arranged in the pushing cavity above the gear ring 105, a limiting ring 106 is arranged in the pushing cavity above the gear ring 105, and the sun gear 104 drives the planetary gear 103 to rotate, the planet wheel 103 is meshed with and rotates through the gear ring 105 to push the planet wheel support shaft 101 to rotate, the planet wheel support shaft 101 is restrained by the limiting ring 106 not to generate axial motion, the planet wheel support shaft 101 rotates to drive the propelling part 2 to rotate and do axial motion, the extrusion glue squeezing part 4 linearly moves from the propelling cavity to the containing cavity, and meanwhile, the central shaft 3 rotates to drive the stirring part 8 to form a differential action with the stirring speed greater than the glue squeezing speed;

the rear cover 1 is a manual driving part which is connected with the outer wall of one end of the middle shell 5 in a buckling mode and rotates along the buckling groove of the outer wall of the middle shell, a sun wheel and a sun wheel shaft are integrally formed in the middle of the rear cover 1, a limiting locking plate 11 is arranged on the outer wall of the rear cover 1, a protrusion facing the containing cavity is arranged on the limiting locking plate 11, a limiting notch is arranged on the edge of the groove of the containing cavity, the protrusion is located in the notch in a locking state, and a connecting line of the limiting locking plate 11 and the outer wall of the rear cover is a porous or grooved connecting line, so that the limiting locking plate 11 can be conveniently broken off for unlocking;

the pushing piece 2 is a cylinder, an external thread is arranged on the outer wall of the pushing piece and used for being matched with an internal thread in the pushing cavity, a sleeve is arranged on the external thread, the glue extruding piece 4 of the tubular structure is connected in a sleeved mode, a partition plate gap 43 is formed in the position, corresponding to the partition plate 62 in the glue containing box 6, of the tubular structure, the circumference of one end of the glue extruding piece 4 is divided into 3 glue extruding rods 41 along the axis direction, the glue extruding feet 42 are installed on the glue extruding rods 41, and the 3 glue extruding feet 42 respectively correspond to 3 independent bins in the glue containing box 6.

In the embodiment, the planetary gear transmission 10 is used for differentiating, so that the rotating speed of the stirring piece is far higher than the propelling speed, the mixing can be better realized, and the mixed materials are stirred more uniformly and fully.

Example 4

As shown in fig. 10, the present embodiment is a manual differential structure of the handheld dynamic mixing glue-squeezing device.

Comprises a rear cover 1, a central shaft 3, a glue extruding part 4, a middle shell 5, a glue containing box 6, a baffle 7, a stirring part 8, a front nozzle cover 9 and a planetary gear transmission 10;

the central shaft 3, the glue extruding part 4 and the planetary gear transmission 10 form a dynamic mixing glue extruding mechanism;

the planetary gear transmission 10 comprises a planetary gear support shaft 101, a gear ring 105 arranged on the inner wall of one end of a middle shell 5, a sun gear shaft 12 arranged in a rear cover 1, a limit ring 106 arranged in a propelling cavity above the gear ring 105, a planetary gear shaft 102 arranged on one end face of the planetary gear support shaft 101, a planetary gear 103 arranged on the planetary gear shaft 102 and meshed with a sun gear 104 arranged on the sun gear shaft 12, an external thread arranged on the outer circumference of the planetary gear support shaft 101, a central hole of an extrusion piece 4 and an internal thread matched with the external thread of the planetary gear support shaft 101, the planetary gear support shaft 101 and the extrusion piece 4 are in threaded connection, a strip-shaped boss arranged on the outer circumference of the extrusion piece 4 and matched with a groove arranged on the inner wall of the propelling cavity shell, a central shaft 3 is an optical axis, the central axis respectively penetrates through a hollow tube in a cavity and the central hole of the planetary gear support shaft, and two ends are respectively connected with a stirring piece and the sun gear shaft in a rear cover or an electric component shell, the sun wheel drives the planet wheel to rotate, the planet wheel pushes the planet wheel support shaft to rotate through meshing of the gear ring, the planet wheel support shaft is restrained by the limiting ring and does not generate axial motion, the planet wheel support shaft rotates to drive the glue squeezing piece to do linear motion from the propelling cavity to the containing cavity, and meanwhile, the central shaft rotates to drive the stirring piece to form a differential action with the stirring speed greater than the glue squeezing speed;

the rear cover 1 is a manual driving part which is connected with the outer wall of one end of the middle shell 5 in a buckling mode and rotates along a buckling groove of the outer wall of the middle shell, a limiting locking plate 11 is arranged on the outer wall of the rear cover 1, a protrusion facing the containing cavity is arranged on the limiting locking plate 11, a limiting notch is arranged on the edge of the groove of the containing cavity, the protrusion is located in the notch in a locking state, and a connecting line of the limiting locking plate 11 and the outer wall of the rear cover is a connecting line with multiple holes or grooves, so that the limiting locking plate 11 can be conveniently broken off and unlocked;

crowded gluey piece 4 is the tubular structure, opens out baffle clearance 43 in the position that the tubular structure corresponds flourishing gluey box 6 inner baffle 62, makes crowded gluey piece 4 one end circumference cut apart into 3 crowded gluey poles 41 along the axis direction, crowded gluey foot 42 is installed on crowded

gluey pole

41, and 3 crowded gluey feet 42 correspond with 3 independent storehouses in the flourishing gluey box 6 respectively.

In the structure of the embodiment, the pushing member 2 is omitted, so that a part of height occupied by the pushing member 2 is reduced, and compared with the previous embodiment, the material containing amount in the glue containing box 6 can be increased under the condition of the same length.

Example 5

According to the structure of

embodiment

1, 2, 3, 4, change the back lid into electronic subassembly, electronic subassembly includes the subassembly shell, installs driving motor and drive circuit in the subassembly shell, and drive circuit uses battery or commercial power as the power, and the subassembly shell is straight cylinder type or pistol handle type, installs in the one end or one side of well casing, and the output shaft of driving motor is direct or through transition piece connection center pin, sets up switch on the subassembly shell.

It should be noted that the electric component is a replacement for the back cover, and the purpose is the same, and still is the driving mechanism. The prior art is fully described in the above embodiments of the present invention, and those skilled in the art can directly understand the above embodiments of the present invention, and the present invention is not described in detail.

As can be seen from the above examples, the present invention is divided into manual or electric drive, constant speed and differential speed glue stirring.

It should be noted that the design of the glue containing box 6 is related to the design of the containing cavity, wherein, the structural scheme that we can design, scheme 1, takes the containing cavity as the glue containing box 6, and at this time, the glue containing box 6 is fixedly arranged in the middle shell 5, the structure is relatively complex to manufacture, and the whole glue containing box is discarded after being used once; scheme 2, the structure of this embodiment, glue containing box 6 pegs graft in holding the intracavity, such advantage is, glue containing box 6 can be produced alone, only need discard glue containing box 6 after using, other parts can used repeatedly; scheme 3, well casing 5 comprises propulsion cavity and appearance chamber body two parts, connects modes such as through threaded connection or outside auxiliary member, and at this moment, holds the chamber body and for flourishing gluey box 6, flourishing gluey box 6 can produce alone, only need abandon after the use flourishing gluey box 6, other parts ability used repeatedly.

From the disclosure of the embodiments, it can be seen that the present invention has the following features compared to the prior art:

The examples disclosed herein are merely illustrative of the technical solutions of the present invention and should not be construed as limiting the content of the present invention, and variations of the present invention by those skilled in the art are still within the scope of the present invention.

Claims

1. The utility model provides a crowded mucilage binding of hand-held type developments is put which characterized in that: comprises a hand-held shell, a dynamic mixing and glue extruding mechanism and a driving mechanism; the handheld shell is internally provided with a propelling cavity, a containing cavity and a mixing cavity, the propelling cavity is connected with the containing cavity, and the containing cavity is connected with the mixing cavity; a hollow pipe for inserting the central shaft is arranged in the center of the containing cavity, and a plurality of independent bins which correspond to the mixture raw materials and are used for containing the mixture raw materials are divided from the cavity in the containing cavity and outside the hollow pipe; actuating mechanism is manual or electric mechanism, be used for the action of drive dynamic mixing crowded gluey mechanism, the crowded gluey piece of crowded gluey mechanism of dynamic mixing is by impelling the chamber to holding the chamber and making rectilinear motion, rotary motion is made to the center pin, crowded gluey foot that the crowded gluey piece corresponds independent storehouse is synchronous pushes the hybrid chamber with the mixture raw materials in a plurality of independent storehouses, the center pin is connected to the stirring piece that is located the hybrid chamber, rotary motion is made to following the center pin, the rotatory stirring of crowded gluey mechanism of dynamic mixing when impeling the raw materials, will continuously push the raw materials mixing stirring in the hybrid chamber, and the hybrid chamber is released to the material after will mixing.

2. The hand-held dynamic mixing and dispensing device of claim 1, wherein: the stirring piece is composed of a stirring shaft and a spiral stirring blade arranged on the stirring shaft, or a plurality of linear rods arranged on the stirring shaft, and the stirring shaft is connected with the central shaft in an inserted or threaded manner.

3. The hand-held dynamic mixing and dispensing device of claim 2, wherein: the plurality of linear rods are distributed at intervals among different layers, the height of the plurality of linear rods on each layer is equal, the plurality of linear rods are uniformly distributed on the outer circumference of the stirring shaft at intervals, and the height size of the linear rods is gradually increased from the topmost layer to the bottommost layer.

4. The hand-held dynamic mixing and dispensing device of claim 1, wherein: the handheld shell consists of a front nozzle cover, a middle shell and a rear cover, or consists of a front nozzle cover, a middle shell and an electric component; a mixing cavity is arranged in the front nozzle cover, the middle shell is of an integrally formed structure, and a propelling cavity and a containing cavity are arranged in the shell; the middle shell is formed by connecting a propulsion cavity and an accommodating cavity, the propulsion cavity is internally provided with the propulsion cavity, and the accommodating cavity is internally provided with the accommodating cavity; the front nozzle cover is connected with one end of the cavity of the middle shell, and one end of the propulsion cavity of the middle shell is connected with the rear cover or the electric component or one part of the electric component.

5. The hand-held dynamic mixing and dispensing device of claim 4, wherein: the front nozzle cover is formed by combining a cylindrical shell and a conical shell, and a glue outlet is formed in the small round end of the conical shell; or a glue outlet with threads on the outer wall is arranged and used for additionally arranging glue outlets with different diameters according to the requirement; one end of the cylindrical shell of the front nozzle cover is connected with the middle shell through an internal thread or a buckle piece, and the inner cavity of the front nozzle cover forms a mixing cavity.

6. The hand-held dynamic mixing and dispensing device of claim 1, wherein: the separation of the cavity inside the containing cavity and outside the hollow pipe into a plurality of independent bins corresponding to the mixture raw materials and used for containing the mixture raw materials is as follows: a plurality of partition plates are arranged between the outer wall of the hollow pipe and the inner wall of the containing cavity in the handheld shell, and the cavities in the containing cavity and outside the hollow pipe are completely divided to form a plurality of independent bins which are corresponding to the mixture raw materials and are used for containing the mixture raw materials; or a glue containing box is inserted into the containing cavity, a hollow pipe is arranged at the center of the glue containing box, a plurality of partition plates are arranged between the outer wall of the hollow pipe and the inner wall of the glue containing box, and the glue containing box is divided into a plurality of independent bins corresponding to the mixture raw materials.

7. The hand-held dynamic mixing and dispensing device of claim 6, wherein: glue containing box one end is the glue pushing opening that a plurality of crowded gluey feet that form after being cut apart by the baffle correspond with crowded gluey piece, the terminal surface of the other end sets up the end panel and seals, set up the discharge opening on the end panel that corresponds every independent storehouse, the discharge opening is direct to communicate with each other with the hybrid chamber, or set up the discharging pipe on the discharge opening, set up a ejection of compact separation blade between discharge opening and hybrid chamber, set up the cover through-hole that corresponds the discharging pipe on the ejection of compact separation blade, the discharge opening passes through the discharging pipe, the cover through-hole communicates with each other with the hybrid chamber.

8. The hand-held dynamic mixing and dispensing device of claim 7, wherein: the inner wall of one end of the handheld shell containing cavity is provided with two long boss strips along the axial direction, the two long boss strips are matched with grooves formed in the outer wall of the glue containing box and used for enabling the glue containing box to be inserted into the containing cavity and not to rotate.

9. The hand-held dynamic mixing and dispensing device of claim 7, wherein: the central position of ejection of compact separation blade sets up a step counter bore, and the (mixing) shaft of stirring spare alternates through the step counter bore, on the terminal surface towards discharge opening one side to the opening buckle connects the (mixing) shaft.

10. The hand-held dynamic mixing and dispensing device of claim 1, wherein: the dynamic mixing and glue extruding mechanism comprises an extruding part, a glue extruding part and a central shaft, wherein the extruding part is inserted on the central shaft, a part of external threads are arranged on the outer circumference of the extruding part, the external threads are matched with the internal threads in the pushing cavity, the central shaft rotates to drive the extruding part to rotate, one end of the extruding part extrudes the glue extruding part, the rotating motion is converted into the linear motion of the glue extruding part in the shell, and meanwhile, a stirring part connected to one end of the central shaft is driven to rotate; the central shaft is formed by connecting a spline section and an optical axis section, the optical axis section is inserted in the hollow tube of the cavity, one end of the optical axis section is connected with the stirring piece, and the end part of the spline section is connected with the driving mechanism;

11. The hand-held dynamic mixing and dispensing device of claim 1, wherein: the glue squeezing piece comprises a glue squeezing rod and a glue squeezing foot arranged on the glue squeezing rod, the glue squeezing piece is a hollow cylinder or a hollow polyhedron, and a partition plate gap is arranged at the position of the glue squeezing piece, which corresponds to the cavity section or the partition plate in the glue containing box, so that the glue squeezing rod and the glue squeezing foot correspond to the independent bin and can be inserted and squeezed.

12. The hand-held dynamic mixing and dispensing device of claim 1, wherein: the rear cover is connected with the outer wall of one end of the middle shell through a buckle, the manual driving part can rotate along the buckle groove of the outer wall of the middle shell, a boss is arranged in the center of the manual driving part, and a spline groove is arranged in the boss and connected with a spline on the central shaft to drive the central shaft to rotate; or the rear cover is internally provided with an integrally formed sun wheel and a sun wheel shaft, and the central shaft is connected with the sun wheel shaft and drives the central shaft to rotate.

13. The hand-held dynamic mixing and dispensing device of claim 12, wherein: the rear cover is provided with a limiting locking plate, the limiting locking plate is provided with a boss facing the middle shell, a limiting notch is formed in the edge of the groove of the middle shell, and the boss is positioned in the notch in a locking state; the connecting line of the outer wall of the rear cover of the limiting locking plate is set to be a porous or groove connecting line, so that the limiting locking plate can be conveniently broken to unlock.

14. The hand-held dynamic mixing and dispensing device of claim 1, wherein: the electric component comprises a component shell, a driving motor and a driving circuit, wherein the driving motor and the driving circuit are installed in the component shell, the driving circuit uses a battery or a commercial power as a power supply, the component shell is in a straight cylinder shape or a pistol handle shape and is installed at one end or one side of a middle shell, an output shaft of the driving motor is directly connected with a central shaft or is connected with the central shaft through a transition piece, and a power switch is arranged on the component shell.