CN204696878U - Pressure Bearning mechanism - Google Patents

Abstract

The utility model provides a kind of pressure Bearning mechanism, comprises conveyer, bearing machine, draw off gear and lowering or hoisting gear: conveyer, for transmitting rotor, transmitting device is also provided with for the limiting section spacing to rotor; Bearing machine is arranged on the side of conveyer, holds when described limiting section stopped by the rotor on conveyer to described rotor last item; Draw off gear is for controlling inflow and the outflow of rotor on conveyer; Lowering or hoisting gear is arranged on the downside of transmitting device, and lowering or hoisting gear is used for lifting motor rotor.Pressure Bearning mechanism of the present utility model, realizes full-automatic installation bearing, relatively existing semi-automatic bearing machine, can be good at connecting front and back station, save tote cart, separate releasing employee, the rotor flowed out at previous station consumes in time, avoids packing or turnover.

Description

Pressure Bearning mechanism

Technical field

The utility model relates to technical field of motors, particularly relates to a kind of pressure Bearning mechanism.

Background technology

At present, air conditioner motor uses semi-automatic bearing machine when installing bearing, rotor is transported to bearing machine by tote cart after installation jump ring, the positioning tool of bearing machine put into by rotor by operating personnel, start hand switch, complete press-in bearing, then rotor is taken away by operating personnel, is put into streamline or tote cart.The drawback that manual mode is produced is as follows: inefficiency, cannot meet the needs of increase of production, labor intensity of operating staff is large.And the equipment of existing installation rotor jump ring is independent of outside streamline, occupy production line expensive real estate, front and back station is connected not tight, rotor has been beaten jump ring and need have been loaded tote cart and be transported to bearing machine, wasting manpower and material resources, and inefficiency, affect productive temp, tote cart needs these operating personnel to go to push away, and causes and temporarily leaves the post.Bearing machine put into by the hand-held rotor of employee, and equipment starts to be pressed into bearing, also there is potential safety hazard, easily weighs hand wounded; Be put into streamline by operating personnel after equipment press-in bearing, there is potential safety hazard equally, in addition, the movement range of operating personnel is comparatively large, and arm exhibition 80mm-90mm, turns round angle and be about 90 °, excessive concerning labour intensity operating personnel.

Utility model content

In view of the present situation of prior art, the purpose of this utility model is to provide a kind of pressure Bearning mechanism, and transmitting device is provided with for the limiting section spacing to rotor; Bearing machine is arranged on the side of conveyer, can hold when described limiting section stopped by the rotor on conveyer to rotor last item; Controlled inflow and the outflow of rotor on conveyer by draw off gear, realize full-automatic installation bearing.Relatively existing semi-automatic bearing machine, can be good at connecting front and back station, save tote cart, separate releasing employee, the rotor flowed out at previous station consumes in time, avoids packing or turnover.For achieving the above object, the technical solution of the utility model is as follows:

A kind of pressure Bearning mechanism, comprising:

Conveyer, for transmitting rotor, described transmitting device is also provided with for the limiting section spacing to described rotor;

Bearing machine, is arranged on the side of described conveyer, holds when described limiting section stopped by the rotor on described conveyer to described rotor last item;

Draw off gear, for controlling inflow and the outflow of rotor on described conveyer; And

Lowering or hoisting gear, is arranged on the downside of described transmitting device, and described lowering or hoisting gear is for promoting described rotor.

Wherein in an embodiment, described draw off gear comprises first connecting rod, second connecting rod, third connecting rod, double leval jib, 5th connecting rod and drive unit, wherein, described first connecting rod, described second connecting rod, described third connecting rod and described double leval jib are arranged in turn, the first end of described first connecting rod is used for stopping or clearance rotor, second end of described first connecting rod and the first end pivot joint of described second connecting rod, second end of described second connecting rod and the first end pivot joint of described third connecting rod, the first end of described double leval jib sets up the second end at described third connecting rod, second end of described double leval jib is articulated on support, the first end of described double leval jib is as free end, for ejecting the rotor at described limiting section place, described first connecting rod and described third connecting rod are also all articulated on support, drive unit described in the first end pivot joint of described 5th connecting rod, third connecting rod described in second end pivot joint of described 5th connecting rod, described drive unit can drive described first connecting rod and described double leval jib to carry out return motion respectively by described 5th connecting rod.

Wherein in an embodiment, described first connecting rod is crescent shape.

Wherein in an embodiment, described second connecting rod and described double leval jib are H shape, and the main body of described 5th connecting rod is arcuation.

Wherein in an embodiment, described conveyer comprises the first paragraph guide rail set gradually, second segment guide rail and the 3rd section of guide rail, wherein, described first paragraph guide rail comprises two groups of both sides and the tilting section be arranged in parallel and vertical section of laying respectively at rotor, described 3rd section of guide rail also comprises two groups of both sides and the tilting section be arranged in parallel and vertical section of laying respectively at rotor, described second segment guide rail comprises two groups of both sides and the tilting section be arranged in parallel of laying respectively at rotor, described tilting section is provided with the inclined-plane of the rotating shaft for supporting motor rotor, the above inclined-plane is downward-sloping setting all in the same direction, the end of described 3rd section of guide rail is for being connected to the closing lid station of streamline.

Wherein in an embodiment, described lowering or hoisting gear comprises the first lowering or hoisting gear and the second lowering or hoisting gear, described first lowering or hoisting gear is positioned at the below of the vertical section of first paragraph guide rail, for rotor is risen to described second segment guide rail from described first paragraph guide rail, described second lowering or hoisting gear is positioned at the below of the vertical section of described 3rd section of guide rail, for rotor is promoted to described 3rd section of guide rail from described second segment guide rail.

Wherein in an embodiment, the upper end of the first lowering or hoisting gear is provided with the first voussoir, the upper end of the second lowering or hoisting gear is provided with the second voussoir, the longitudinal section of described first voussoir and described second voussoir is triangle or class triangle.

Wherein in an embodiment, angle α between the tilting section of described first paragraph guide rail and the vertical section of described first paragraph guide rail is 45 °-85 °, and the angle β between the tilting section of described 3rd section of guide rail (103) and the vertical section of described 3rd section of guide rail (103) is 40 °-80 °.

Wherein in an embodiment, described pressure Bearning mechanism also comprises for the clamp spring assembling machine to rotor assembling jump ring, and described clamp spring assembling machine is arranged on the front end of described conveyer.

Wherein in an embodiment, the side of described bearing machine is also provided with vibrating disk and bearing guide groove, and described vibrating disk is used for holding bearing, and the bearing in described vibrating disk is delivered to described bearing machine by described bearing guide groove.

Wherein in an embodiment, the quantity of described bearing guide groove is two, and two described bearing guide grooves lay respectively at rotor both sides during the described limiting section of stop.

Wherein in an embodiment, described limiting component is V-type support; Or described limiting section is the V-type groove be arranged on described transmitting device.

Wherein in an embodiment, described conveyer is also provided with the inductor whether put in place for detecting rotor, and described inductor and described draw off gear link and arrange.

The beneficial effects of the utility model are:

Pressure Bearning mechanism of the present utility model, transmitting device is provided with for the limiting section spacing to rotor; Bearing machine is arranged on the side of conveyer, can hold when described limiting section stopped by the rotor on conveyer to rotor last item; Controlled inflow and the outflow of rotor on conveyer by draw off gear, realize full-automatic installation bearing.Relatively existing semi-automatic bearing machine, can be good at connecting front and back station, save tote cart, separate releasing employee, the rotor flowed out at previous station consumes in time, avoids packing or turnover, enhances productivity, reduce costs.

Accompanying drawing explanation

Fig. 1 is the structural representation of pressure Bearning mechanism one embodiment of the present utility model;

Fig. 2 is the front view of the machine of bearing shown in Fig. 1;

Fig. 3 is the left view of the machine of bearing shown in Fig. 1;

Fig. 4 is the schematic perspective view of first connecting rod shown in Fig. 1;

Fig. 5 is the schematic front view of first connecting rod shown in Fig. 4;

Fig. 6 is the schematic top plan view of first connecting rod shown in Fig. 4;

Fig. 7 is for looking schematic diagram in a left side for first connecting rod shown in Fig. 4;

Fig. 8 is the structural representation of first paragraph guide rail;

Fig. 9 is the structural representation of the 3rd section of guide rail;

The front view schematic diagram that Figure 10 is vibrating disk shown in Fig. 1;

Figure 11 is for the A-A of vibrating disk shown in Fig. 1 is to cross-sectional schematic;

The left view schematic diagram that Figure 12 is vibrating disk shown in Fig. 1;

Figure 13 is the schematic front view of third connecting rod;

Figure 14 is the schematic top plan view of third connecting rod;

Figure 15 is that schematic diagram is looked on a left side for third connecting rod;

Figure 16 is the schematic front view of second connecting rod;

Figure 17 is the schematic top plan view of second connecting rod;

Figure 18 is that schematic diagram is looked on a left side for second connecting rod;

Figure 19 is the schematic front view of the 5th connecting rod;

Figure 20 is the schematic top plan view of the 5th connecting rod;

Figure 21 is that schematic diagram is looked on a left side for the 5th connecting rod;

Figure 22 is the schematic front view of V-type frame;

Figure 23 is the schematic top plan view of V-type frame;

Figure 24 is that schematic diagram is looked on a left side for V-type frame.

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, pressure Bearning mechanism of the present utility model is further elaborated.Should be appreciated that specific embodiment described herein only for explaining the utility model, and be not used in restriction the utility model.

Referring to figs. 1 through Figure 24, as shown in Figure 1, the pressure Bearning mechanism of the utility model one embodiment, comprises conveyer, bearing machine 100, draw off gear and lowering or hoisting gear.

Wherein, transmitting dress for transmitting rotor 112, transmitting device being also provided with for the limiting section spacing to rotor 112.Limiting component is V-type support 107, when the rotating shaft of rotor 112 or rotor 112 is placed in V-type support 107, can carry out spacing to the rotor 112 on transmitting device.Or limiting section is the V-type groove be arranged on described transmitting device, when the rotating shaft of rotor 112 is placed in V-type groove, also can carry out spacing to the rotor 112 on transmitting device.Limiting component be V-type support 107 or V-type groove time, be convenient to entering and flowing out of rotor 112.Preferably, conveyer is also provided with the inductor whether put in place for detecting rotor 112, and inductor and draw off gear link and arrange.Inductor can be infrared inductor.Whether the rotor that inductor detects on conveyer puts in place, and realizing has rotor just action, allows rotor single-piece flow out, and prevents single step of releasing stream from going out multiple rotor and product-free toward dirty phenomenon.

Draw off gear can be arranged on transmitting device, and for controlling inflow and the outflow of rotor 112 on conveyer, certainly, draw off gear also can be arranged on support.Lowering or hoisting gear is arranged on the downside of transmitting device, for promoting the rotor 112 on transmitting device.

Bearing machine 100 is arranged on the side of conveyer, and bearing machine 100 holds rotor 112 last item when described limiting section stopped by the rotor 112 on conveyer.The side of bearing machine 100 is also provided with vibrating disk 106 and bearing guide groove 105, and vibrating disk 106 is for holding bearing, and the bearing in vibrating disk 106 is delivered to bearing machine 100 by bearing guide groove 105.The feeding of bearing is that rotating disk drives, realize automatically sending into bearing, vibrating disk 106 capacity is large, and one time blowing can use for a long time, vibrating disk 106 is by driving stepper motor, import bearing bearing machine 100 by closed guide groove, avoid dust to affect motor performance, guide groove is stainless steel material, convenient for cleaning, frictional force is little, not perishable, attractive and durable.Preferably, the quantity of bearing guide groove 105 is two, and two bearing guide grooves 105 lay respectively at rotor 112 both sides during described limiting section of stop.Two bearing guide grooves are set, enhance productivity.

Transmitting device is provided with for the limiting section spacing to rotor, and bearing machine is arranged on the side of conveyer, can hold when described limiting section stopped by the rotor on conveyer to rotor last item; Controlled inflow and the outflow of rotor on conveyer by draw off gear, thus realize full-automatic installation bearing.Relatively existing semi-automatic bearing machine, can be good at connecting front and back station, save tote cart, separate releasing operative employee, the rotor flowed out at previous station consumes in time, avoids packing or turnover.

As a kind of embodiment, as shown in Figure 1, draw off gear comprises first connecting rod 109, second connecting rod 110, third connecting rod 108, double leval jib (not shown), the 5th connecting rod 111 and drive unit 116, wherein, first connecting rod 109, second connecting rod 110, third connecting rod 108 and double leval jib are arranged in turn.Preferably, first connecting rod 109 is crescent shape, as shown in Figures 4 to 6.Second connecting rod 110 and double leval jib are H shape, as shown in Figure 16 to Figure 18.The main body of the 5th connecting rod 111 is arcuation.Drive unit 116 can be cylinder, hydraulic cylinder or linear electric motors.

First connecting rod 109 is designed to crescent shape, large with the contact-making surface of rotor, rotates flexibly, save space, and reliability is high.Second connecting rod 110 and double leval jib are designed to H shape, and balance is good, save material and intensity is large.

The first end of first connecting rod 109 is used for stopping or clearance rotor 112, second end of first connecting rod 109 and the first end pivot joint of second connecting rod 110, as shown in Figure 1 and Figure 5, first pivoted hole 1091 of first connecting rod 109 and the first pivoted hole 1101 of second connecting rod 110 match, and the first pivoted hole 1091 of first connecting rod 109 and the first pivoted hole 1101 of second connecting rod 110 make the second end of first connecting rod 109 and the first end pivot joint of second connecting rod 110 by pivot.

Second end of second connecting rod 110 and the first end pivot joint of third connecting rod 108, as shown in Fig. 1, Figure 13 and Figure 18, second pivoted hole 1102 of second connecting rod 110 and the first pivoted hole 1081 of third connecting rod 108 match, and the second pivoted hole 1102 of second connecting rod 110 and the first pivoted hole 1081 of third connecting rod 108 make the second end of second connecting rod 110 and the first end pivot joint of third connecting rod 108 by pivot.

The first end (left end) of double leval jib sets up the second end (right-hand member) at third connecting rod 108, second end (right-hand member) of double leval jib is articulated on the rail brackets 105 of support, the first end of double leval jib is not as free end (first end of double leval jib is fixed on the second end of third connecting rod 108), and the first end of double leval jib is for ejecting the rotor 112 at described limiting section place.First connecting rod 109 and third connecting rod 108 are also all articulated on support, and wherein, as shown in Figure 1 and Figure 5, the second pivoted hole 1092 of first connecting rod 109 is pivotally attached on support by pivot.

First end (lower end) the pivot joint drive unit 116 of the 5th connecting rod 111, second end (upper end) the pivot joint third connecting rod 108 of the 5th connecting rod 111, as shown in Fig. 1, Figure 13 and Figure 21, the upper pivoted hole 1111 of the 5th connecting rod 111 is corresponding with the second pivoted hole 1082 of third connecting rod 108.3rd pivoted hole 1083 of third connecting rod 108 is pivotally attached on support by pivot, makes third connecting rod 108 as seesaw.

Drive unit 116 can drive first connecting rod 109 and double leval jib to carry out return motion respectively by the 5th connecting rod 111.Drive unit 116 drives the 5th connecting rod 111 to move, and the 5th connecting rod 111 drives third connecting rod 108 to rotate, and third connecting rod 108 drives second connecting rod 110 to move, and second connecting rod 110 drives first connecting rod 109 to rotate.First end due to double leval jib sets up the second end at third connecting rod 108, also drives double leval jib to rotate when third connecting rod 108 rotates simultaneously.Rotor 112 in limiting section can be ejected to outside limiting section when double leval jib rotates clockwise.The articulated section of above five connecting rods does not respectively overlap.

As a kind of embodiment, conveyer comprises the first paragraph guide rail 113, second segment guide rail 104 and the 3rd section of guide rail 103 that set gradually, wherein, first paragraph guide rail 113 comprises two groups of both sides and the tilting section be arranged in parallel and vertical section laying respectively at rotor 112.Preferably, the angle α between the tilting section of first paragraph guide rail 113 and the vertical section of first paragraph guide rail 113 is 45 °-85 °, α preferably 50 °, 60 °, 65 °, 78 ° or 85 °.

3rd section of guide rail 103 also comprises two groups of both sides and the tilting section be arranged in parallel and vertical section of laying respectively at rotor 112, angle β between the vertical section of the tilting section of the 3rd section of guide rail 103 and the 3rd section of guide rail 103 is 40 °-80 °, β preferably 45 °, 60 °, 75 °, 80 ° or 85 °.

Second segment guide rail 104 comprises two groups of both sides and the tilting section be arranged in parallel of laying respectively at rotor 112, described tilting section is provided with the inclined-plane of the rotating shaft for supporting motor rotor 112.The inclined-plane downward-sloping setting all in the same direction of first paragraph guide rail 113, second segment guide rail 104 and the 3rd section of guide rail 103, the end of the 3rd section of guide rail 103 is for being connected to the closing lid station (being loaded in housing by rotor) of streamline.

Limit the angle of angle α and angle β, effectively can control the rolling speed of rotor 112 on guide rail, ensure the stationarity that rotor 112 moves.

As a kind of embodiment, lowering or hoisting gear comprises the first lowering or hoisting gear 117 and the second lowering or hoisting gear 102, first lowering or hoisting gear 117 is arranged on the first support 118, first lowering or hoisting gear 117 is positioned at the below of the vertical section of first paragraph guide rail 113, and the first lowering or hoisting gear 117 is for rising to second segment guide rail by rotor 112 from first paragraph guide rail 113.Second lowering or hoisting gear 102 is arranged on the second support 101, and the second lowering or hoisting gear 102 is positioned at the below of the vertical section of the 3rd section of guide rail 103, and the second lowering or hoisting gear 102 is for being promoted to the 3rd section of guide rail 103 by rotor 112 from second segment guide rail.First lowering or hoisting gear 117 and the second lowering or hoisting gear 102 can be cylinder, hydraulic cylinder or linear electric motors.

Preferably, the upper end of the first lowering or hoisting gear 117 is provided with the first voussoir 114, the longitudinal section being provided with the second voussoir 119, first voussoir 114 and the second voussoir 119 in the upper end of the second lowering or hoisting gear 102 is triangle or class triangle.First voussoir 114 is connected on rotor 112, under the first lowering or hoisting gear 117 drives, first voussoir 114 holds up rotor 112 and moves up along the vertical section of first paragraph guide rail 113, during the vertical section of rotor 112 higher than first paragraph guide rail 113, due to the Action of Gravity Field of self, rotor 112 will roll to second segment guide rail 104 from the first voussoir 114, achieves electronics rotor 112 and is transferred to second segment guide rail 104 from first paragraph guide rail 113.In like manner, second voussoir 119 is connected on rotor 112, under the second lowering or hoisting gear 102 drives, second voussoir 119 holds up rotor 112 and moves up along the vertical section of the 3rd section of guide rail 103, during the vertical section of rotor 112 higher than the 3rd section of guide rail 103, due to the Action of Gravity Field of self, rotor 112 will roll tilting section to the 3rd section of guide rail 103 from the second voussoir 119, achieves electronics rotor 112 and is transferred to the 3rd section of guide rail 103 from second segment guide rail 104.Wherein, the direction of arrow in Fig. 1 represents the flow direction of rotor 112.

As a kind of embodiment, pressure Bearning mechanism also comprises the clamp spring assembling machine for assembling jump ring to rotor 112, and clamp spring assembling machine is arranged on the front end of conveyer, installs jump ring before installation bearing.

Clamp spring assembling machine is once that jump ring installed by two rotors, and clamp spring assembling machine is arranged on streamline, improves the adaptability of pipeline, ensures that productive temp is consistent.Clamp spring assembling machine utilizes Y type push rod, and for motor shaft provides support, only need a cylinder, this infrastructure cost is low, easy care, and requisite space is little, reliable operation, can eliminate the power produced when pushing jump ring, to protect motor shaft injury-free; Clamp spring assembling machine adopts the jump ring push broach of semicircular opening, after certain wearing and tearing, can also continuing to use, without the need to more renewing push broach, adding its useful life after only needing simple adjustment; To the detent mechanism of motor shaft end on clamp spring assembling machine, can regulate, by regulating the quality that can ensure into jump ring, after locating element wearing and tearing, do fine adjustments, can continue to use, greatly increase the useful life of part, the length of the motor shaft of different model is different, only needs to regulate this mechanism height when changing motor, just can carry out the production of other models, accomplish a tractor serves several purposes.

The pressure Bearning mechanism of each embodiment above, transmitting device is provided with for the limiting section spacing to rotor; Bearing machine is arranged on the side of conveyer, can hold when described limiting section stopped by the rotor on conveyer to rotor last item; Controlled inflow and the outflow of rotor on conveyer by draw off gear, realize full-automatic installation bearing.

Use fixed guide conveying rotor, after rotor installing card spring, directly enter delivery track, rotor is made to enter the track of differing heights by lifting cylinder, the end of track is connected to the closing lid station of streamline, and transmitting procedure does not need tote cart, does not need employee involvement, station before and after good linking, realize automatic shaft take up into, rotor is before entering automatic bearing machine, a set of draw off gear is had to control the inflow of rotor, flow out, this device adopts bar group principle, five connecting rods cooperatively interact, be hinged, by a little air cylinder driven, when rotor flows into, crescent moon (first connecting rod) stops that rotor enters V-type frame, in normal operation, rotor is released in crescent moon upset, crescent moon resets in time, realize stopping to next rotor, automatic bearing machine starts to be pressed into bearing, little cylinder group of drive rods ejects rotor, flow to rearmounted guide rail, next guide rail is sent into again by lifting cylinder, flow to production line closing lid station, when bar group ejects rotor, crescent moon synchronization action, put into a new rotor, enter V-type frame, this covering device can realize stopping rotor, put into rotor, eject rotor three functions.

The feeding of bearing is that rotating disk drives, realize automatically sending into bearing, rotating disk capacity is large, and one time blowing can use for a long time, rotating disk is by driving stepper motor, import bearing frock by closed guide groove, avoid dust to affect motor performance, guide groove is stainless steel material, convenient for cleaning, frictional force is little, not perishable, attractive and durable.

The pressure Bearning mechanism of each embodiment above, relatively existing semi-automatic bearing machine, can be good at connecting front and back station, save tote cart, separate releasing employee, the rotor flowed out at previous station consumes in time, avoids packing or turnover, realize stopping, put into by five connection-rod groups, the function of push-out motor rotor, greatly extend the useful life of this kind equipment.

The above embodiment only have expressed several execution mode of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection range of the present utility model.Therefore, the protection range of the utility model patent should be as the criterion with claims.

Claims (13)

1. press a Bearning mechanism, it is characterized in that, comprising:

Conveyer, for transmitting rotor (112), described transmitting device is also provided with for the limiting section spacing to described rotor (112);

Bearing machine (100), is arranged on the side of described conveyer, holds when described limiting section stopped by the rotor (112) on described conveyer to described rotor (112) last item;

Draw off gear, for controlling inflow and the outflow of rotor (112) on described conveyer; And

Lowering or hoisting gear, is arranged on the downside of described transmitting device, and described lowering or hoisting gear is for promoting described rotor (112).

2. pressure Bearning mechanism according to claim 1, is characterized in that:

Described draw off gear comprises first connecting rod (109), second connecting rod (110), third connecting rod (108), double leval jib, 5th connecting rod (111) and drive unit (116), wherein, described first connecting rod (109), described second connecting rod (110), described third connecting rod (108) and described double leval jib are arranged in turn, the first end of described first connecting rod (109) is used for stopping or clearance rotor (112), second end of described first connecting rod (109) and the first end pivot joint of described second connecting rod (110), second end of described second connecting rod (110) and the first end pivot joint of described third connecting rod (108), the first end of described double leval jib sets up the second end at described third connecting rod (108), second end of described double leval jib is articulated on support, the first end of described double leval jib is as free end, for ejecting the rotor (112) at described limiting section place, described first connecting rod (109) and described third connecting rod (108) are also all articulated on support, drive unit (116) described in the first end pivot joint of described 5th connecting rod (111), third connecting rod (108) described in second end pivot joint of described 5th connecting rod (111), described drive unit (116) can drive described first connecting rod (109) and described double leval jib to carry out return motion respectively by described 5th connecting rod (111).

3. pressure Bearning mechanism according to claim 2, is characterized in that, described first connecting rod (109) is crescent shape.

4. pressure Bearning mechanism according to claim 2, is characterized in that, described second connecting rod (110) and described double leval jib are H shape, and the main body of described 5th connecting rod (111) is arcuation.

5. pressure Bearning mechanism according to claim 1, it is characterized in that, described conveyer comprises the first paragraph guide rail (113) set gradually, second segment guide rail (104) and the 3rd section of guide rail (103), wherein, described first paragraph guide rail (113) comprises two groups of both sides and the tilting section be arranged in parallel and vertical section of laying respectively at rotor (112), described 3rd section of guide rail (103) also comprises two groups of both sides and the tilting section be arranged in parallel and vertical section of laying respectively at rotor (112), described second segment guide rail (104) comprises two groups of both sides and the tilting section be arranged in parallel of laying respectively at rotor (112), described tilting section is provided with the inclined-plane of the rotating shaft for supporting motor rotor (112), the above inclined-plane is downward-sloping setting all in the same direction, the end of described 3rd section of guide rail (103) is for being connected to the closing lid station of streamline.

6. pressure Bearning mechanism according to claim 5, it is characterized in that, described lowering or hoisting gear comprises the first lowering or hoisting gear (117) and the second lowering or hoisting gear (102), described first lowering or hoisting gear (117) is positioned at the below of the vertical section of first paragraph guide rail (113), for rotor (112) is risen to described second segment guide rail from described first paragraph guide rail (113), described second lowering or hoisting gear (102) is positioned at the below of the vertical section of described 3rd section of guide rail (103), for rotor (112) is promoted to described 3rd section of guide rail (103) from described second segment guide rail.

7. pressure Bearning mechanism according to claim 6, is characterized in that,

The upper end of the first lowering or hoisting gear (117) is provided with the first voussoir (114), the upper end of the second lowering or hoisting gear (102) is provided with the second voussoir (119), and the longitudinal section of described first voussoir (114) and described second voussoir (119) is triangle or class triangle.

8. the pressure Bearning mechanism according to any one of claim 5-7, it is characterized in that, angle α between the tilting section of described first paragraph guide rail (113) and the vertical section of described first paragraph guide rail (113) is 45 °-85 °, and the angle β between the tilting section of described 3rd section of guide rail (103) and the vertical section of described 3rd section of guide rail (103) is 40 °-80 °.

9. the pressure Bearning mechanism according to any one of claim 1-7, is characterized in that, also comprise for the clamp spring assembling machine to rotor (112) assembling jump ring, described clamp spring assembling machine is arranged on the front end of described conveyer.

10. the pressure Bearning mechanism according to any one of claim 1-7, it is characterized in that, the side of described bearing machine (100) is also provided with vibrating disk (106) and bearing guide groove (105), described vibrating disk (106) is for holding bearing, and the bearing in described vibrating disk (106) is delivered to described bearing machine (100) by described bearing guide groove (105).

11. pressure Bearning mechanisms according to claim 10, it is characterized in that, the quantity of described bearing guide groove (105) is two, and two described bearing guide grooves (105) lay respectively at rotor (112) both sides during the described limiting section of stop.

12. pressure Bearning mechanisms according to any one of claim 1-7, it is characterized in that, described limiting component is V-type support (107); Or described limiting section is the V-type groove be arranged on described transmitting device.

13. pressure Bearning mechanisms according to any one of claim 1-7, it is characterized in that, described conveyer is also provided with the inductor whether put in place for detecting rotor (112), and described inductor and described draw off gear link and arrange.