CN207628566U - A kind of micronizer discharge chamber - Google Patents

Abstract

The utility model discloses a kind of micronizer discharge chambers.The utility model belongs to food and feed manufacturing machine technical field,It is big to solve discharge chamber windage in the prior art,The easily stifled problem of discharging,A kind of micronizer discharge chamber,It include the shell being connect with pulverizing chamber on the upside of grading wheel,The shell is equipped with the feed inlet being connected to pulverizing chamber,The discharge port being connect with air hose and the support tube for installing classification motor cabinet,It is connected to by air duct between the discharge port and feed inlet,The air duct is arranged obliquely,The axial direction in air duct and the axial direction of feed inlet are at 0 ° of 60 ° of angle,The utility model is simple in structure,Windage is small,It discharges smooth,By adjusting the position in air duct and discharge port,Reduce resistance of the material pneumatic with discharge chamber,Material is under the promotion of air-flow without changing direction,It can be directly discharged through discharge port,The assembly relation between discharge chamber and micronizer other parts is not influenced simultaneously.

Description

A kind of micronizer discharge chamber

Technical field

The utility model belongs to food and feed manufacturing machine technical field, more particularly to a kind of micronizer discharge chamber.

Background technology

Micronizer will be classified out qualified material, effect of the qualified material in air-flow through grading wheel after crushing material It is lower to enter discharge chamber, then it is transported to outside pulverizing chamber by air hose.In the prior art, as shown in Figure 1, micronizer goes out Material room is mounted on the upside of grading wheel and is connect with pulverizing chamber, the position due to grading wheel motor cabinet and micronizer total height Limitation, discharge chamber cannot be too high, and discharge port is all arranged vertically on the side of discharge chamber, and the shell of discharge chamber is rectangular parallelepiped structure, The gentle stream of material enters discharge chamber, is left from discharge port and needs horizontal motion to discharge port, and material is classified from grading wheel Out due to the effect of centrifugal force, the direction of motion is obliquely that thus such an arrangement increases ultramicro grindings relative to feed inlet The windage of machine, material are not easy to export because being obstructed, to influence the effect of micronizer.Additionally due to air hose is straight up, Discharge port needs elbow transition when being connect with air hose, and too small elbow radius can also increase in Geldart-D particle material is System resistance, and elbow radius is excessive, the installation space of micronizer needs to increase, and is unfavorable for the arrangement of plant process.

Invention content

The utility model aim is to provide the micronizer discharge chamber that a kind of windage is small, discharging is smooth, simple in structure.

In order to achieve the above technical purposes, a kind of technical solution that micronizer discharge chamber uses of the utility model for：

A kind of micronizer discharge chamber includes the shell being connect with pulverizing chamber on the upside of grading wheel, the shell It is described equipped with the feed inlet being connected to pulverizing chamber, the discharge port being connect with air hose and for installing the support tube for being classified motor cabinet Discharge port and feed inlet between be connected to by air duct, the air duct is arranged obliquely, the axial direction in air duct and the axial direction of feed inlet At 0 ° of -60 ° of angle.Air duct arranges on the one hand the axial direction in air duct and the axial direction of feed inlet work as feed separation at 0 ° -60 ° obliquely Out material is not necessarily to horizontal movement afterwards, can directly be come out from discharge port by centrifugal force and air-flow, substantially reduces material and goes out together The export direction of resistance between material room, another aspect air duct and discharge port is changed, and is come without other major diameter elbows Change direction and installation space is greatly saved.

Preferably, air duct has been connected and composed by smooth surface transition between the feed inlet and discharge port.Smooth surface On the one hand the internal round and smooth resistance that can reduce material and inner wall, another aspect smooth surface increase the space of discharge chamber, light The sliding angularly disposed position for vacateing setting support tube of curved surface, under the premise of changing air channel, have no effect on discharge chamber With the assembly relation between micronizer other parts, while smooth surface can be molded by metal plate or casting and forming Simple process and low cost.

Preferably, support tube is coaxially disposed with feed inlet.Coaxial arrangement meets the assembly relation of micronizer.

Preferably, the discharge port has elbow, the outlet axial direction and feed inlet of the elbow by discharge port flanged joint It is axial parallel, vertical air hose is connected on the upside of elbow.Windage can be reduced by connecting air hose by elbow, while herein curved Head is to make up discharge port and the little deviation on feed inlet direction, thus the diameter very little of elbow, do not influence whole position The arrangement set.

Preferably, the feed inlet is equipped with feed opening flange.Feed opening flange is set convenient for connection.

Compared with prior art, the utility model has the beneficial effects that：

The utility model is simple in structure, and windage is small, discharging is smooth, and the position by adjusting air duct relative to feed inlet subtracts Small material with air-flow with the resistance of discharge chamber, material under the promotion of air-flow without changing direction, can be directly through air duct from going out Material mouth is discharged, and air duct is set as smooth surface transition, the round and smooth resistance that can reduce material and inner wall in one side smooth surface inside Power, another aspect smooth surface increase the space of discharge chamber, can vacate the position of setting support tube, in change air duct Under the premise of direction, the assembly relation between discharge chamber and micronizer other parts is had no effect on, while improved Discharge chamber can reduce the required minimum installation space of micronizer, be conducive to the process layout of workshop appliance.

Description of the drawings

Fig. 1 is the utility model micronizer discharge chamber operating position and process Installation sectional view in the prior art.

Fig. 2 is the structural schematic diagram of the utility model micronizer discharge chamber；

Fig. 3 is the utility model micronizer discharge chamber operating position and process Installation sectional view；

Fig. 4 is the sectional view of the structural schematic diagram of the utility model micronizer discharge chamber.

In figure：1. discharge port；2. shell；3. feed inlet；4. support tube；5. pulverizing chamber；6. being classified motor cabinet；8. classification Wheel；9. elbow；10. air hose；21. air duct；31. feed opening flange；20. shell；50. pulverizing chamber；51. air duct；60. being classified motor Seat；80. grading wheel；90. elbow；100. air hose.

Specific implementation mode

With reference to the accompanying drawings and detailed description, the utility model is furtherd elucidate, it should be understood that these embodiments are only For illustrating the utility model rather than limitation the scope of the utility model, after having read the utility model, this field Technical staff falls within the application range as defined in the appended claims to the modification of the various equivalent forms of the utility model.

As shown in Figures 2 to 4, a kind of micronizer discharge chamber, including be mounted on 8 upside of grading wheel and connect with pulverizing chamber 5 Shell 2, the shell 2 be equipped with the feed inlet 3 being connected to pulverizing chamber 5, the discharge port 1 being connect with air hose 10 and with discharge port 1 Support tube 4 of the coaxial arrangement for installing classification motor cabinet 6, passes through smooth surface transition between the feed inlet 3 and discharge port 1 Air duct 21 is connected and composed, the air duct 21 is arranged obliquely, and the axial direction in air duct 21 is pressed from both sides with the axial of feed inlet 3 at 0 ° -60 ° Angle, air duct 21 arrange that the axial direction in air duct 21 and the axial direction of feed inlet 3 are at 0 ° -60 °, so set, on the one hand working as material obliquely It separates rear material and is not necessarily to horizontal movement, can directly come out from discharge port 1 by the gentle air duct 21 that flows through of centrifugal force, subtract significantly Small material is with the resistance between discharge chamber, and the direction of another aspect air duct 21 and discharge port 1 is changed, without big curved Installation space is greatly saved to change direction in head, air duct 21 be set as it is round and smooth inside smooth surface one side smooth surface can be with Reduce the resistance of material and inner wall, another aspect smooth surface increases the space of discharge chamber, and smooth surface is angularly disposed to be vacateed The position of setting support tube 4, under the premise of changing air duct 21 and discharge port 1 direction, have no effect on discharge chamber with it is super Assembly relation between other parts of atomizer, while smooth surface can pass through metal plate or casting and forming, moulding process Simply, at low cost, discharge port 1 has elbow 9, the outlet of the elbow 9 axial axial with feed inlet 3 by discharge port flanged joint Parallel, the upside of elbow 9 is connected with vertical air hose 10, and windage can be reduced by connecting air hose 10 by elbow 9, while herein Elbow 9 is to make up discharge port 1 and the little deviation on 3 direction of feed inlet, thus the radian very little of elbow 9, do not influence whole The arrangement of the position of body.

The utility model is simple in structure, and windage is small, discharging is smooth, the position by adjusting air duct 21 relative to feed inlet 3, Resistance of the material with air-flow with discharge chamber is reduced, material is not necessarily to change direction under the promotion of air-flow, can be directly through air duct 21 Be discharged from discharge port, air duct 21 is set as smooth surface transition, inside one side smooth surface it is round and smooth can reduce material with it is interior The resistance of wall, another aspect smooth surface increase the space of discharge chamber, can vacate the position of setting support tube 4, thus Under the premise of changing 21 direction of air duct, the assembly relation between discharge chamber and micronizer other parts is had no effect on, together When improved discharge chamber can reduce the required minimum installation space of micronizer, the technique for being conducive to workshop appliance Layout.

Claims (5)

1. a kind of micronizer discharge chamber, includes the shell being connect with pulverizing chamber on the upside of grading wheel, the shell is set There are the feed inlet being connected to pulverizing chamber, the discharge port being connect with air hose and the support tube for installing classification motor cabinet, feature It is：It is connected to by air duct between the discharge port and feed inlet, the air duct is arranged obliquely, the axial direction in air duct and charging The axial direction of mouth is at 0 ° of -60 ° of angle.

2. micronizer discharge chamber according to claim 1, it is characterised in that：Lead between the feed inlet and discharge port It crosses smooth surface transition and has connected and composed air duct.

3. micronizer discharge chamber according to claim 1, it is characterised in that：Support tube is coaxially disposed with feed inlet.

4. micronizer discharge chamber according to claim 1, it is characterised in that：The discharge port passes through discharge port flange It is connected with elbow, the outlet of the elbow is axial axially parallel with feed inlet, and vertical air hose is connected on the upside of elbow.

5. micronizer discharge chamber according to claim 1, it is characterised in that：The feed inlet is equipped with feed inlet method It is blue.