CN108539884A - A kind of energy-saving cooling body of stator based on rotational structure - Google Patents

Abstract

The invention discloses a kind of energy-saving cooling bodies of the stator based on rotational structure, including mechanism body, pedestal is arranged in the mechanism body, cooling chamber is arranged in the top of the pedestal, air-out chamber is arranged in the inside of the cooling chamber, air-cooler is arranged in described device ontology, nozzle is set on the outer wall of the air-out chamber, air outlet is arranged in the upper and lower ends of the cooling chamber, bearing block is set on the inner wall of cooling chamber, rotation axis is set on the bearing block, fixed seat is set on the outer wall of the rotation axis, die cavity is set in the fixed seat, state device body setting motor.Device body is simple in structure, by the mold cavity configuration of multistation, reduces stator and cools down the time it takes, it can effectively ensure that sample stator producing efficiency improves, and by the multiplexing bit architecture of device body, the consumption of energy when can effectively reduce cooling, it is easy to use, practicability.

Description

A kind of energy-saving cooling body of stator based on rotational structure

Technical field

The present invention relates to energy-saving field, the energy-saving cooling body of specifically a kind of stator based on rotational structure.

Background technology

Motor is required for using in many fields at present, and motor all plays very big work in life, in production With motor is mainly made of stator and rotor portion, and the effect of stator mainly generates magnetic field, and the effect of rotor is to revolve Turn to carry out cutting magnetic induction line in magnetic field and generate electric current.

Motor manufacturer is required for carrying out sample making to motor before producing motor in batches at present, waits for sample items Could enter in batches after performance is all qualified, avoid causing damages, but during sample making due to many motors be all with The preceding new product not made, fabrication cycle is short when sample motor makes, and quantity is small, therefore is all fabricated separately, because It is made this motor production method that cannot be produced as existing batch, the stator of sample motor is completing and dipping lacquer Cooling installation is needed later, and the mode of the motor cooling of existing batch of production is by natural cooling, and this method is not particularly suited for Sample making, therefore be cold using being carried out by way of cold wind blow-through one by one air pressure gun when existing sample making But, this mode longevity of service needs to expend more resource, and blowing for a long time also has working efficiency certain influence, because This needs makes improvements.

Invention content

The purpose of the present invention is to provide a kind of energy-saving cooling bodies of the stator based on rotational structure, to solve the above-mentioned back of the body The problem of being proposed in scape technology.

To achieve the above object, the present invention provides the following technical solutions：

Pedestal, institute is arranged in a kind of energy-saving cooling body of stator based on rotational structure, including mechanism body, the mechanism body The top setting cooling chamber for stating pedestal, is fixedly connected, the inside of the cooling chamber is set between the cooling chamber and pedestal Air-out chamber is set, the air-out chamber is arranged in the centre position of cooling chamber, and air-cooler, the air-cooler is arranged in described device ontology It is fixedly connected by the effect of screw between pedestal, nozzle, the nozzle and air-out chamber is set on the outer wall of the air-out chamber Inside be interconnected, the nozzle includes fixing sleeve, swivel becket, ball and fan blade, and fixing sleeve is arranged in the nozzle, described solid It being fixedly connected by the effect of fixing screws between fixed set and the outer wall of air-out chamber, swivel becket is arranged in the inside of the fixing sleeve, The swivel becket is loop configuration, is rotatablely connected by the effect of ball between the swivel becket and fixing sleeve, the swivel becket Inside fan blade is set, be welded to connect between the fan blade and the inner wall of swivel becket, the setting of the upper and lower ends of the cooling chamber The inside of air outlet, the air outlet and cooling chamber is interconnected, and the inside setting of cooling chamber is divided into two parts up and down, Bearing block is set on the inner wall of cooling chamber, is fixed and is connected by the effect of screw between the bearing block and the inner wall of cooling chamber It connects, rotation axis is set on the bearing block, is fixedly connected between the rotation axis and bearing block, is set on the outer wall of the rotation axis Fixed seat is set, is fixedly connected by welding between the fixed seat and rotation axis, die cavity, institute are set in the fixed seat The effect rotation connection by screw thread between die cavity and fixed seat is stated, the die cavity includes bottom mounting plate, side shield guard And bottom mounting plate is arranged in protecting cover, the die cavity, side shield guard is arranged in the side of the bottom mounting plate, and the side is anti- It is fixedly connected by welding between protecting wire net cover and bottom mounting plate, protecting cover, the protecting cover and side is arranged in the die cavity It is rotatablely connected by the effect of hinge between the side wall of protection net, motor, the shell of the motor is arranged in described device ontology Be fixedly connected by the effect of screw between pedestal, the output shaft end of the motor is arranged connecting shaft, the connecting shaft with It is rotatablely connected by the effect of shaft coupling between the output shaft of motor.

As a further solution of the present invention：Air guide hole, the air guide hole and air-out chamber is arranged in the inside of the air-out chamber Inner wall between be fixedly connected by the effect of screw, mutually interconnected by the effect of air hose between the air guide hole and air-cooler It is logical.

As a further solution of the present invention：The rotation axis, which is arranged on the part outside cooling chamber, is equipped with belt wheel, It is fixedly connected by the effect of screw between the belt wheel and rotation axis, belt wheel, the rotation axis is also provided in the connecting shaft The effect by belt is arranged between the belt wheel on the belt wheel and connecting shaft on the part outside cooling chamber to be sequentially connected.

As a further solution of the present invention：Rubber pad A, the rubber pad A are set on the inner wall of the bottom mounting plate It is pasted and is connected by the effect of glue between bottom mounting plate.

As a further solution of the present invention：Rubber pad B, the rubber pad B and protecting cover are set on the end face of the protecting cover Between be fixedly connected by the effect of screw.

As a further solution of the present invention：Slot, the slot and side are set on the outer wall of the side shield guard It is fixedly connected by welding between the protection net of face.

As further scheme of the invention：Bolt is set on the side wall of the protecting cover, between the bolt and protecting cover It is fixedly connected by welding.

Compared with prior art, the beneficial effects of the invention are as follows：Device body is simple in structure, passes through the die cavity knot of multistation Structure reduces stator and cools down the time it takes, can effectively ensure that sample stator producing efficiency improves, and pass through device sheet The multiplexing bit architecture of body, the consumption of the energy, drives air-cooler in the rotation when can effectively reduce cooling, passes through air-cooler Effect toward air-out chamber inner ventilation, then cold wind is passed into cooling chamber by the effect of nozzle, passes through cold wind Effect cools down the stator in cooling chamber, realizes cooling purpose, easy to use, practicability.

Description of the drawings

Fig. 1 is the structural schematic diagram of the energy-saving cooling body of stator based on rotational structure.

Fig. 2 is the structural schematic diagram of die cavity in the energy-saving cooling body of stator based on rotational structure.

Fig. 3 is the structural schematic diagram of nozzle in the energy-saving cooling body of stator based on rotational structure.

Specific implementation mode

The technical solution of this patent is described in more detail With reference to embodiment.

Please refer to Fig.1-3, a kind of energy-saving cooling body of stator based on rotational structure, including mechanism body, the machine Pedestal 1 is arranged in structure ontology, and cooling chamber 2 is arranged in the top of the pedestal 1, fixed between the cooling chamber 2 and pedestal 1 to connect It connects, air-out chamber 3 is arranged in the inside of the cooling chamber 2, and the air-out chamber 3 is arranged in the centre position of cooling chamber 2, the dress Ontology setting air-cooler 6 is set, is fixedly connected by the effect of screw between the air-cooler 6 and pedestal 1, the air-out chamber 3 Inside setting air guide hole 4, is fixedly connected between the air guide hole 4 and the inner wall of air-out chamber 3 by the effect of screw, the wind-guiding It is interconnected by the effect of air hose 5 between mouth 4 and air-cooler 6, nozzle 7, the nozzle is set on the outer wall of the air-out chamber 3 7 is interconnected with the inside of air-out chamber 3, and the nozzle 7 includes fixing sleeve 23, swivel becket 24, ball 25 and fan blade 26, the spray First 7 setting fixing sleeve 23, is fixedly connected between the fixing sleeve 23 and the outer wall of air-out chamber 3 by the effect of fixing screws, institute State the inside setting swivel becket 24 of fixing sleeve 23, the swivel becket 24 is loop configuration, the swivel becket 24 and fixing sleeve 23 it Between be rotatablely connected by the effect of ball 25, fan blade 26, the fan blade 26 and swivel becket 24 is arranged in the inside of the swivel becket 24 Inner wall between be welded to connect, air outlet 8, the air outlet 8 and cooling chamber 2 is arranged in the upper and lower ends of the cooling chamber 2 Inside be interconnected, the setting of the inside of cooling chamber 2 is divided into two parts up and down, and bearing is arranged on the inner wall of cooling chamber 2 Seat 9, is fixedly connected by the effect of screw between the bearing block 9 and the inner wall of cooling chamber 2, is arranged on the bearing block 9 Rotation axis 10 is fixedly connected between the rotation axis 10 and bearing block 9, and fixed seat 11 is arranged on the outer wall of the rotation axis 10, It is fixedly connected by welding between the fixed seat 11 and rotation axis 10, die cavity 12, institute is set in the fixed seat 11 It includes bottom mounting plate 15, side to state the effect rotation connection by screw thread, the die cavity 12 between die cavity 12 and fixed seat 11 Bottom mounting plate 15 is arranged in protection net 16 and protecting cover 19, the die cavity 12, and side is arranged in the side of the bottom mounting plate 15 Protection net 16 is fixedly connected, the bottom by welding between the side shield guard 16 and bottom mounting plate 15 Rubber pad A17 is set on the inner wall of portion's mounting plate 15, passes through the effect of glue between the rubber pad A17 and bottom mounting plate 15 Connection is pasted, slot 18 is set on the outer wall of the side shield guard 16, between the slot 18 and side shield guard 16 It is fixedly connected by welding, protecting cover 19, the side wall of the protecting cover 19 and side shield guard 16 is arranged in the die cavity 12 Between be rotatablely connected by the effect of hinge 20, on the end face of the protecting cover 19 setting rubber pad B21, the rubber pad B21 with It is fixedly connected by the effect of screw between protecting cover 19, bolt 22, the bolt 22 and shield is set on the side wall of the protecting cover 19 It is fixedly connected by welding between lid 19, motor 14, shell and the pedestal 1 of the motor 14 is arranged in described device ontology Between be fixedly connected by the effect of screw, the rotation axis 10 be arranged on the part outside cooling chamber 2 be equipped with belt wheel 13, It is fixedly connected by the effect of screw between the belt wheel 13 and rotation axis 10, the output shaft end setting connection of the motor 14 Axis is rotatablely connected between the connecting shaft and the output shaft of motor 14 by the effect of shaft coupling, is also provided in the connecting shaft Belt wheel 13, the rotation axis 10 are arranged between the belt wheel 13 in the belt wheel 13 on the part outside cooling chamber 2 and connecting shaft It is sequentially connected by the effect of belt.

The present invention operation principle be：Device body using when be to be installed to stator first, when installation Stator is placed on to the inside of die cavity 12, then covers the protecting cover 19 on die cavity 12, passes through 18 phase interworking of bolt 22 and slot Protecting cover 19 is mounted on the end of side shield guard 16, thus installs stator, pass through rubber pad by the effect of conjunction Stator winding is protected in the effect of A17 and rubber pad B21, is avoided stator winding impaired, is then started motor 14, pass through electricity Machine 14 makees the rotation of land used Ah east rotation axis 10, and to drive die cavity 12 to rotate, the stator rotation made in this way is turning Air-cooler 6 is driven when dynamic, by the effect of air-cooler 6 toward the inner ventilation of air-out chamber 3, then passes through the effect of nozzle 7 Cold wind is passed into cooling chamber 2, the stator in cooling chamber 2 is cooled down by cold wind action, is realized cooling Purpose, device body is simple in structure, by 12 structure of die cavity of multistation, reduces stator and cools down the time it takes, can The raising of sample stator producing efficiency is effectively ensured, and by the multiplexing bit architecture of device body, when can effectively reduce cooling The consumption of the energy, it is easy to use, it is highly practical.

The better embodiment of this patent is explained in detail above, but this patent is not limited to above-mentioned embodiment party Formula, one skilled in the relevant art within the scope of knowledge, can also be under the premise of not departing from this patent objective It makes a variety of changes.

Claims (7)

1. a kind of energy-saving cooling body of stator based on rotational structure, including mechanism body, which is characterized in that the mechanism sheet Pedestal is arranged in body（1）, the pedestal（1）Top be arranged cooling chamber（2）, the cooling chamber（2）With pedestal（1）Between it is solid Fixed connection, the cooling chamber（2）Inside be arranged air-out chamber（3）, the air-out chamber（3）It is arranged in cooling chamber（2）In Between position, described device ontology be arranged air-cooler（6）, the air-cooler（6）With pedestal（1）Between fixed by the effect of screw Connection, the air-out chamber（3）Outer wall on nozzle is set（7）, the nozzle（7）With air-out chamber（3）Inside be interconnected, institute State nozzle（7）Including fixing sleeve（23）, swivel becket（24）, ball（25）And fan blade（26）, the nozzle（7）Fixing sleeve is set （23）, the fixing sleeve（23）With air-out chamber（3）Outer wall between be fixedly connected by the effect of fixing screws, the fixing sleeve （23）Inside be arranged swivel becket（24）, the swivel becket（24）It is loop configuration, the swivel becket（24）With fixing sleeve（23） Between pass through ball（25）Effect rotation connection, the swivel becket（24）Inside be arranged fan blade（26）, the fan blade（26） With swivel becket（24）Inner wall between be welded to connect, the cooling chamber（2）Upper and lower ends be arranged air outlet（8）, it is described go out Air port（8）With cooling chamber（2）Inside be interconnected, cooling chamber（2）Inside setting be divided into two parts up and down, it is cooling Chamber（2）Inner wall on bearing block is set（9）, the bearing block（9）With cooling chamber（2）Inner wall between pass through the work of screw With being fixedly connected, the bearing block（9）Upper setting rotation axis（10）, the rotation axis（10）With bearing block（9）Between fixed connect It connects, the rotation axis（10）Outer wall on fixed seat is set（11）, the fixed seat（11）With rotation axis（10）Between pass through weldering The mode connect is fixedly connected, the fixed seat（11）Upper setting die cavity（12）, the die cavity（12）With fixed seat（11）Between lead to Cross the effect rotation connection of screw thread, the die cavity（12）Including bottom mounting plate（15）, side shield guard（16）And protecting cover （19）, the die cavity（12）Bottom mounting plate is set（15）, the bottom mounting plate（15）Side be arranged side shield guard （16）, the side shield guard（16）With bottom mounting plate（15）Between be fixedly connected by welding, the die cavity （12）Protecting cover is set（19）, the protecting cover（19）With side shield guard（16）Side wall between pass through hinge（20）Effect turn Motor is arranged in dynamic connection, described device ontology（14）, the motor（14）Shell and pedestal（1）Between pass through the effect of screw It is fixedly connected, the motor（14）Output shaft end connecting shaft, the connecting shaft and motor are set（14）Output shaft between It is rotatablely connected by the effect of shaft coupling.

2. the energy-saving cooling body of the stator according to claim 1 based on rotational structure, which is characterized in that the outlet air Chamber（3）Inside be arranged air guide hole（4）, the air guide hole（4）With air-out chamber（3）Inner wall between fixed by the effect of screw Connection, the air guide hole（4）With air-cooler（6）Between pass through air hose（5）Effect be interconnected.

3. the energy-saving cooling body of the stator according to claim 1 based on rotational structure, which is characterized in that the rotation Axis（10）It is arranged in cooling chamber（2）External part is equipped with belt wheel（13）, the belt wheel（13）With rotation axis（10）Between It is fixedly connected by the effect of screw, belt wheel is also provided in the connecting shaft（13）, the rotation axis（10）It is arranged in cooling chamber Room（2）Belt wheel on external part（13）With the belt wheel in connecting shaft（13）Between be sequentially connected by the effect of belt.

4. the energy-saving cooling body of the stator according to claim 1 based on rotational structure, which is characterized in that the bottom Mounting plate（15）Inner wall on setting rubber pad A（17）, the rubber pad A（17）With bottom mounting plate（15）Between pass through glue Effect paste connection.

5. the energy-saving cooling body of the stator according to claim 1 based on rotational structure, which is characterized in that the protecting cover （19）End face on setting rubber pad B（21）, the rubber pad B（21）With protecting cover（19）Between fixed and connect by the effect of screw It connects.

6. the energy-saving cooling body of the stator according to claim 1 based on rotational structure, which is characterized in that the side Protection net（16）Outer wall on slot is set（18）, the slot（18）With side shield guard（16）Between pass through welding Mode is fixedly connected.

7. the energy-saving cooling body of the stator according to claim 1 based on rotational structure, which is characterized in that the protecting cover （19）Side wall on bolt is set（22）, the bolt（22）With protecting cover（19）Between be fixedly connected by welding.