CN206855746U - Clay stirs Vacuuming structure - Google Patents
Clay stirs Vacuuming structure Download PDFInfo
- Publication number
- CN206855746U CN206855746U CN201720720429.7U CN201720720429U CN206855746U CN 206855746 U CN206855746 U CN 206855746U CN 201720720429 U CN201720720429 U CN 201720720429U CN 206855746 U CN206855746 U CN 206855746U
- Authority
- CN
- China
- Prior art keywords
- chamber
- vertical
- closed chamber
- agitating shaft
- evacuated
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
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- Mixers With Rotating Receptacles And Mixers With Vibration Mechanisms (AREA)
- Preparation Of Clay, And Manufacture Of Mixtures Containing Clay Or Cement (AREA)
Abstract
The utility model discloses a kind of clay to stir Vacuuming structure, in the frame of clay mixer and positioned at the side of the frame, including a closed chamber, evacuated chamber connect with the closed chamber located at the side of the closed chamber, the discharge tank of the side of the remote evacuated chamber, the pumped vacuum systems connected with the evacuated chamber, the first agitating shaft for penetrating from the side of the evacuated chamber closed chamber on the closed chamber;The closed chamber is L-shaped, by a transverse chambers and a vertical chamber connected with the transverse chambers inner end, the discharge tank connects with one end away from the vertical chamber in the transverse chambers, and the evacuated chamber is located at the latter half of the side cavity wall away from the transverse chambers on the vertical chamber and connected with the closed chamber;If offering the dry hole of some vertical chambers that the closed chamber is pierced for pug in the top half of the side cavity wall of the vertical chamber, one end of one second agitating shaft penetrates the vertical intracavitary from the side chamber wall.
Description
Technical field
Ceramic product production field is the utility model is related to, more particularly to a kind of clay stirring Vacuuming structure.
Background technology
Ceramic product includes ceramic pan, bowl, spoon, jar, bottle etc. all utensils, and it from clay is raw material to be, is passed through
Cross stirring and processing into pug, vacuumize, base or throwing shaping, dry, roasting etc. technological process be made.In existing technique,
Clay is mixed into addition mixer with water and is stirred into satisfactory pug, then output is taken out very by vaccum-pumping equipment
Sky, the satisfactory blank raw material of suction is formed with this, then carry out base or billet withdrawing technology.And existing mixer is stirring
After the completion of mixing, pug is taken out generally by artificial or sluice gate mode, or be by mud by tiltable agitator
Material is poured out, and this mode is required for manually being operated or auxiliary operation, extremely waste of manpower and material resources, pug take-off time
It is long, it is unfavorable for improving efficiency.And pug needs other vaccum-pumping equipment to be vacuumized after taking out, what this pug made
Machinery equipment build is larger, causes the multiple independent equipment of whole Making programme needs, and these occupation area of equipment are big.
Utility model content
For above-mentioned the deficiencies in the prior art, technical problem to be solved in the utility model is:There is provided one kind can be
It is vacuum-pumping after stirring, the clay without single evacuator stirs Vacuuming structure.
In order to solve the above technical problems, the technical scheme that the utility model uses is:A kind of clay stirring is provided to take out
Vacuum structure, in the frame of clay mixer and positioned at the frame side, including a closed chamber, located at the sealing
The evacuated chamber connected with the closed chamber of the side of room, the side away from the evacuated chamber on the closed chamber
Discharge tank, the pumped vacuum systems connected with the evacuated chamber, the of the closed chamber is penetrated from the side of the evacuated chamber
One agitating shaft;The closed chamber is L-shaped, by a transverse chambers and a vertical chamber connected with the transverse chambers inner end, the discharging
Bucket connects with one end away from the vertical chamber in the transverse chambers, and the evacuated chamber is on the vertical chamber away from described
The latter half of the side cavity wall of transverse chambers simultaneously connects with the closed chamber;In the top half of the side cavity wall of the vertical chamber
If offering the dry hole of some vertical chambers that the closed chamber is pierced for pug, one is described close for the pug to be delivered to
One end of indoor second agitating shaft of envelope penetrates the vertical intracavitary from the side chamber wall.
As optimization, if the upper half of dry hole side cavity wall away from the discharge tank on the vertical chamber
Part, the top half of the second agitating shaft from the side chamber wall are worn in the vertical chamber.
As optimization, the side cavity wall top half away from the evacuated chamber is provided with for the on the vertical chamber
The mounting portion of two agitating shafts installation, the mounting portion include outwards recessed by the side cavity wall away from the evacuated chamber
Bearing installation cavity and the clutch shaft bearing for being arranged at the bearing installation cavity;In a vertical side chamber of the chamber away from the discharge tank
The top half of wall offers one second through hole, one end of second agitating shaft corresponding to the opening position of the bearing installation cavity
Penetrated in the vertical chamber by second through hole, and be rotatablely connected with the clutch shaft bearing, the other end passes through clay mixer
Electrical drive portion output par, c connection, rotated so as to the driving according to the electrical drive portion.
As optimization, second bearing is provided with the side wall away from the closed chamber in the evacuated chamber, institute
The one end for stating the first agitating shaft penetrates the evacuated chamber from the side wall of the remote closed chamber, and extends to the sealing
In the transverse chambers of room, the other end of first agitating shaft is connected with the output par, c of the electrical drive portion, so as to pass through
State the driving of electrical drive portion and rotate;The part that first agitating shaft is located at the closed chamber has the first stirring feeding leaf
Piece, the pug that can be vacuumized the process of the closed chamber according to the rotation of first agitating shaft are delivered to the discharging
Bucket, so as to be exported by the discharging opening of the discharge tank.
As optimization, the pumped vacuum systems includes a vacuum pumping pump, one end is connected with the vacuum pumping pump, the other end
The vacuum pressure of the pipeline being connected with the evacuated chamber, the vacuum on the pipeline and for detecting the closed chamber
Table.
Clay of the present utility model stirs Vacuuming structure, when clay is stirred by the second agitating shaft and is delivered to the sealing
Behind room, stirred by first agitating shaft in the closed chamber, by being located remotely from the evacuated chamber of discharge tank and taking out
Vacuum system carries out vacuum pumping, while is stirred by the first agitating shaft and is delivered to discharge tank, so completes pug
Vacuumize and convey so that from the discharging opening output pug i.e. exhausted vacuum, base or throwing can be directly entered
Technique, it is not necessary to deliver to again in special vacuum extractor and carry out vacuumizing work.Vacuum pumping pump can be directly arranged in the frame
Lower section, space-consuming is smaller.Stirring Vacuuming structure of the present utility model, become the part knot of clay mixer
Structure, it needs more borders to set a closed chamber and pumped vacuum systems, and structure is relatively simple, and vacuumizing effect is good, saves
Flow, reduce the cost for buying special vacuum extractor.This structure design is extremely ingenious, is set and taken out using relative mode
Vacuum chamber and discharge tank, so as to which using the discharging hermetic seal room of pug, when vacuumizing, discharge tank extraneous gas is skilful by pug
Wonderful sealing, therefore can smoothly complete and vacuumize.
Brief description of the drawings
Fig. 1 is the structural representation of the utility model clay stirring embodiment of Vacuuming structure one.
Fig. 2 is the implementation state diagram of the utility model clay stirring Vacuuming structure.
Embodiment
Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out
Clearly and completely describing, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole
Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made
The every other embodiment obtained, belong to the scope of the utility model protection.
Fig. 1 and Fig. 2 is referred to, clay stirring Vacuuming structure of the present utility model is located in the frame 1 of clay mixer,
And positioned at the side of frame 1.Including a closed chamber 20, connected located at the side of the closed chamber 20 and with the closed chamber 20
Evacuated chamber 22, on the closed chamber 20 discharge tank 24 of the side away from the evacuated chamber 22, vacuumize with described
Pumped vacuum systems that room 22 connects, the first agitating shaft 26 for penetrating from the side of the evacuated chamber 22 closed chamber 20.Tool
Body:
The closed chamber 20 is substantially L-shaped, is connected by transverse chambers 201 and one with the inner end of transverse chambers 201 perpendicular
To chamber 202, the upper end of the vertical chamber 202 can be sealed by the closure 203 being detachably connected, and set the closure 203
Benefit is when the part in closed chamber 20 goes wrong, and can open the closure 203 and carry out maintenance and inspection.
In the present embodiment, the discharge tank 24 is communicated in one end away from the vertical chamber 202 in the transverse chambers 201
(being left end, hereinafter referred to as left end in the present embodiment), the left end of the transverse chambers 201 are the opening connected with the discharge tank 24
End, the discharge tank 24 are connected by the left end with the closed chamber 20.The evacuated chamber 22 is located at the closed chamber 20
Side (be right side in the present embodiment, hereinafter referred to as on the right side of) cavity wall on vertical chamber 202 away from the transverse chambers 201, specifically connects
Be connected to the bottom or the latter half of the right side cavity wall, on the right side of this cavity wall corresponding to the evacuated chamber 22 position offer with
The first through hole 206 that the evacuated chamber 22 connects, so cause the evacuated chamber 22 by the first through hole 206 with it is described
Closed chamber 20 connects.
One end of one second agitating shaft 3 is arranged in described vertical side cavity wall (this reality of chamber 202 away from the discharge tank 24
It is right side cavity wall to apply example) top half, pug stirring is delivered into the closed chamber 20, so as to by located at described close
The first agitating shaft 26, evacuated chamber 22 and the pumped vacuum systems of envelope room 20 are stirred and vacuumize process.
On the vertical chamber 202 away from the evacuated chamber 22 side (be left side in the present embodiment, a hereinafter referred to as left side
Side) cavity wall top or top half be provided with for the second agitating shaft 3 installation mounting portion, the mounting portion include by
The left side cavity wall recessed bearing installation cavity 204 and is arranged at the clutch shaft bearing 205 of the bearing installation cavity 204 to the left.Described
The top half of the right side cavity wall of vertical chamber 202 offers one second through hole, institute corresponding to the opening position of the bearing installation cavity 204
One end that the second agitating shaft 3 of clay mixer is held is stated to penetrate in the vertical chamber 202 by second through hole, and with described the
One bearing 205 is rotatablely connected, and the other end is connected by the output par, c of an electrical drive portion, so as to according to the electric drive portion
Point driving and rotate.
A sleeve 207 is provided with the vertical chamber 202, the sleeve 207, which is sheathed on second agitating shaft 3, to be located at
The periphery of the part of the vertical chamber 202, one end of the sleeve 207 connect with the opening of the bearing installation cavity 204, separately
One end connects with second through hole, and in the present embodiment, second through hole is inverted U-shaped hole.The sleeve 207 can make described
The part that second agitating shaft 3 connects with the clutch shaft bearing 205 isolates with the pug, avoids the pug from blocking the connecting portion
Point.
Offered in the top half of the right side cavity wall of the vertical chamber 202 some for making positioned at the vertical chamber 202
Pug outside right side pierces the drilling (not shown) of the closed chamber 20, and the pug is formed in fine strip shape by the drilling
Into the closed chamber 20.The part that second agitating shaft 3 is located at outside the right side cavity wall of closed chamber 20 has the second stirring
Feeding blade 31, the part outside the right side of closed chamber 20 are provided with feeding material chamber, and the feeding material chamber covers in second stirring
Outside feeding blade 31, when electrical drive portion drives second agitating shaft 3 to rotate, the second stirring feeding blade 31 can be with
Agitating shaft rotates, so as to which the pug is sent into the closed chamber 20 while pug is stirred.
The side wall away from the closed chamber 20 (is right side wall in the present embodiment, hereinafter referred to as in the evacuated chamber 22
Right side wall) on be provided with second bearing 221, one end (i.e. left end) of first agitating shaft 26 penetrates described take out from the right side wall
Vacuum chamber 22, and extending in the transverse chambers 201 of the closed chamber 20, the left sides of left side and the transverse chambers 201 can be with
Positioned at same end face.The other end (i.e. right-hand member) of first agitating shaft 26 is connected with the output par, c of the electrical drive portion,
So as to be rotated by the driving of the electrical drive portion.The part that first agitating shaft 26 is located at the closed chamber 20 has
First stirring feeding blade 261, can take out the process of the closed chamber 20 very according to the rotation of first agitating shaft 26
Empty pug is delivered to the discharge tank 24, so as to be exported by the discharging opening of the discharge tank 24.
The pumped vacuum systems includes a vacuum pumping pump (not shown) or air-breathing or aspiration pump, and one end vacuumizes with described
Pump connection, the other end be connected with the evacuated chamber 22 pipeline 281, on the pipeline 281 and be used for detect it is described close
Seal the pressure vacuum gauge 282 of the vacuum of room 20.In the present embodiment, offered in the lower wall of the evacuated chamber 22 for institute
The third through-hole 283 of the connection of pipeline 281 is stated, the opening position close to the third through-hole 283 on the pipeline 281 is installed with one
Hand valve 284.
In the present embodiment, the transverse chambers 201 of the discharge tank 24 and the closed chamber 20 are detachably connected, in the transverse direction
The left end of chamber 201 has outwards extend horizontally away the first edge 2011, is spaced apart on first edge 2011 and is provided with some the
One perforate (not shown), horizontally outward extending in the right-hand member of the discharge tank 24 has the second edge 241, on second side
Opening position along 241 corresponding to some first perforates, which corresponds, offers some second perforates (not shown), even
When connecing, if utilization bolt stem 291 passes through first perforate and the second perforate, locked by corresponding nut 292.
In the present embodiment, the discharge tank 24 is in substantially horn-like, is divided into from length direction in uniform internal diameter section and gradual change
Footpath section, be gradual change internal diameter section close to one section of the transverse chambers 201, one section of the remote transverse chambers 201 is uniform internal diameter section, institute
It is gradually small to be connected with the uniform internal diameter section to state the interior direction radially away from the transverse chambers 201 of gradual change internal diameter section.
Clay stirring vacuum structure of the present utility model, when clay is stirred by the second agitating shaft 3 and is delivered to the sealing
Behind room 20, stirred by first agitating shaft 26 in the closed chamber 20, by being located remotely from vacuumizing for discharge tank 24
Room 22 and pumped vacuum systems carry out vacuum pumping, while are stirred by the first agitating shaft 26 and are delivered to discharge tank
24, so complete vacuumizing and conveying for pug so that vacuum is exhausted from the pug of discharging opening output, can be direct
Into base or billet withdrawing technology, it is not necessary to deliver to again in special vacuum extractor and carry out vacuumizing work.Vacuum pumping pump can be straight
The lower section of the frame 1 is arranged in, space-consuming is smaller.Stirring Vacuuming structure of the present utility model, becomes clay and stirs
A part of structure of machine is mixed, it needs more borders to set a closed chamber 20 and pumped vacuum systems, and structure is relatively simple, takes out true
Empty effect is good, saves flow, reduces the cost for buying special vacuum extractor.This structure design is extremely ingenious, utilizes
Relative mode sets evacuated chamber 22 and discharge tank 24, so as to utilize the discharging hermetic seal room 20 of pug, when vacuumizing
The extraneous gas of discharge tank 24 is cleverly sealed by pug, therefore can smoothly complete and vacuumize.
Embodiment of the present utility model is these are only, not thereby limits the scope of the claims of the present utility model, every profit
The equivalent structure or equivalent flow conversion made with the utility model specification and accompanying drawing content, or directly or indirectly it is used in it
The technical field of his correlation, is similarly included in scope of patent protection of the present utility model.
Claims (5)
1. a kind of clay stirs Vacuuming structure, in the frame of clay mixer and positioned at the side of the frame, it is special
Sign is:The evacuated chamber connected with the closed chamber including a closed chamber, located at the side of the closed chamber, located at described
The discharge tank of side away from the evacuated chamber, the pumped vacuum systems connected with the evacuated chamber on closed chamber, from described
The side of evacuated chamber penetrates the first agitating shaft of the closed chamber;The closed chamber is L-shaped, by a transverse chambers and one with it is described
The vertical chamber of transverse chambers inner end connection, the discharge tank connects with one end away from the vertical chamber in the transverse chambers, described
Evacuated chamber is located at the latter half of the side cavity wall away from the transverse chambers on the vertical chamber and connected with the closed chamber;
The some of some vertical chambers that the closed chamber is pierced for pug are offered in the top half of the side cavity wall of the vertical chamber
Drilling, one be used for by the pug be delivered to one end of the second agitating shaft in the closed chamber penetrate from the side chamber wall it is described vertical
Intracavitary.
2. clay as claimed in claim 1 stirs Vacuuming structure, it is characterised in that:If the dry hole is located at described vertical
The top half of the side cavity wall away from the discharge tank, the top half of the second agitating shaft from the side chamber wall wear institute on chamber
State in vertical chamber.
3. clay as claimed in claim 2 stirs Vacuuming structure, it is characterised in that:Taken out on the vertical chamber away from described
The top half of the side cavity wall of vacuum chamber be provided with for the second agitating shaft installation mounting portion, the mounting portion include by
The outside recessed bearing installation cavity of the side cavity wall away from the evacuated chamber and the first axle for being arranged at the bearing installation cavity
Hold;The opening position of the bearing installation cavity is corresponded in the top half of the vertical side cavity wall of the chamber away from the discharge tank
Offer one second through hole, one end of second agitating shaft is penetrated in the vertical chamber by second through hole, and with it is described
Clutch shaft bearing is rotatablely connected, and the other end is connected by the output par, c of the electrical drive portion of clay mixer, so as to basis
The driving of the electrical drive portion and rotate.
4. clay as claimed in claim 3 stirs Vacuuming structure, it is characterised in that:Away from described in the evacuated chamber
It is provided with second bearing in one side wall of closed chamber, the side wall of one end of first agitating shaft from the remote closed chamber
The evacuated chamber is penetrated, and is extended in the transverse chambers of the closed chamber, the other end and the electricity of first agitating shaft
The output par, c connection of drive part, so as to be rotated by the driving of the electrical drive portion;First agitating shaft is located at
The part of the closed chamber has the first stirring feeding blade, can be according to the rotation of first agitating shaft and by the sealing
The pug that the process of room vacuumizes is delivered to the discharge tank, so as to be exported by the discharging opening of the discharge tank.
5. clay as claimed in claim 1 stirs Vacuuming structure, it is characterised in that:The pumped vacuum systems is taken out true including one
Empty pump, the pipeline that one end is connected with the vacuum pumping pump, the other end is connected with the evacuated chamber, on the pipeline and use
In the pressure vacuum gauge for the vacuum for detecting the closed chamber.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720720429.7U CN206855746U (en) | 2017-06-20 | 2017-06-20 | Clay stirs Vacuuming structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720720429.7U CN206855746U (en) | 2017-06-20 | 2017-06-20 | Clay stirs Vacuuming structure |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206855746U true CN206855746U (en) | 2018-01-09 |
Family
ID=60827401
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201720720429.7U Expired - Fee Related CN206855746U (en) | 2017-06-20 | 2017-06-20 | Clay stirs Vacuuming structure |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN206855746U (en) |
-
2017
- 2017-06-20 CN CN201720720429.7U patent/CN206855746U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180109 Termination date: 20180620 |