CN207424203U - A kind of BSG motor stand tests frock - Google Patents

Abstract

The utility model discloses a kind of BSG motor stand tests frock, including BSG motor support bases, stent riser, switching panel, fore bearing shell, rear cartridge housing, bearing baffle and belt pulley connecting shaft；BSG motor support bases are fixed on by stent riser and switching panel on electromechanical testing platform, and one end of fore bearing shell is fixed on electromechanical testing platform；The other end of fore bearing shell is fixed in one end of cartridge housing afterwards；Belt pulley connecting shaft left end exports axis connection by spline shaft flange and electromechanical testing platform, and passing through the first deep groove ball bearing and the second deep groove ball bearing is rotatably supported on fore bearing shell and rear cartridge housing, the right end of belt pulley connecting shaft is connected with engine crankshaft belt pulley；Belt is installed between engine crankshaft belt pulley and the output belt pulley of BSG motors.The utility model have it is easy to operate, it is at low cost, and the advantages that can realize that conventional motors testboard tests BSG motors, working condition of the BSG motors in power assembly can be simulated.

Description

A kind of BSG motor stand tests frock

Technical field

The utility model is related in a kind of BSG motor stand tests frock more particularly to a kind of conventional motors test-bed Test tool building, that belt transmission can be achieved.

Background technology

BSG motors are that one kind is increased to engine speed more than idling by zero in very short time by belt transmission, So as to fulfill the device of the quick start-stop of automobile., it is necessary to carry out individual performance, reliable to BSG motors before the debugging of BSG power assemblies Property experiment.

Conventional motors carry out bench test, are that motor is fixed on test-bed by panel of transferring, pass through splined shaft Dynamometer machine and motor are transferred and are transferred into action edge by flange.BSG motors are belt pulley export structures, and the assembling side of Pulley shaft Formula is pressed for interference, non-dismountable.Therefore, it can not connect, need according to conventional motors testing stand type of attachment during BSG electromechanical testings It is transferred by belt into action edge.At present, BSG electromechanical testings are high there are purchase cost mainly by BSG special test platforms, The shortcomings of working condition of the BSG motors in power assembly can not be simulated.

BSG motors are tested on conventional motors testboard, is loaded with dynamometer machine simulated engine, BSG can be simulated Working condition in power assembly, while save experimentation cost.In view of the belt pulley export structure of BSG motors is, it is necessary to design A kind of BSG motor stand tests frock.

Utility model content

The utility model aim there is provided a kind of BSG motor stand tests frock, have it is at low cost, easy to operate, can It realizes and BSG motors is tested on common electric machine testboard bay, the working condition of BSG motors in power assembly etc. can be simulated Advantage.

The utility model solves technical problem and adopts the following technical scheme that：A kind of BSG motor stand tests frock, including BSG motor support bases, stent riser, switching panel, fore bearing shell, rear cartridge housing, bearing baffle and belt pulley connecting shaft；

The switching panel is fixed on electromechanical testing platform, and the stent riser is fixed on the switching panel, described BSG motor support bases are fixed on the stent riser；

One end of the fore bearing shell is fixed on the electromechanical testing platform；

The other end of the fore bearing shell is fixed in one end of cartridge housing after described；

The belt pulley connecting shaft left end exports axis connection by spline shaft flange and electromechanical testing platform, and it is deep to pass through first Ditch ball bearing and the second deep groove ball bearing are rotatably supported on the fore bearing shell and rear cartridge housing, the belt pulley connection The right end of axis is connected with engine crankshaft belt pulley；Between the engine crankshaft belt pulley and the output belt pulley of BSG motors Belt is installed.

Optionally, the switching panel is semicircle ring structure, has been distributed uniformly and circumferentially on the switching panel more A first through hole is both provided with multiple first threaded holes on the circumferential end of the switching panel；In the switching panel Circumferential end face on offer the first dowel hole and the second threaded hole, bolt is through first on the switching panel The switching panel is fixed on the electromechanical testing platform by through hole.

Optionally, the second dowel hole, multiple second through holes and the multiple 3rd there are two being opened up on the stent riser Threaded hole is also formed with multiple cylindrical bosses on the stent riser, be also formed on the stent riser two it is square Protrusion；Moreover, the cylindrical boss center offers the threaded hole perpendicular with boss upper surface；Positioning pin passes through the branch The first dowel hole of the second dowel hole of plate and panel of transferring is erected, is realized between the stent riser and switching panel Positioning, and bolt coordinates through the second through hole on the stent riser and the second threaded hole on the switching panel, The stent riser is fixed on the switching panel.

Optionally, multiple third through-holes are offered on the BSG motor support bases, and is formed with protrusion, the BSG motors Bearing is consolidated the BSG motor support bases by the cooperation of the cylindrical boss on the third through-hole and stent riser that open up thereon Due on the stent riser.

Optionally, location hole is offered on the electromechanical testing platform, the fore bearing shell is determined by the first circular male half coupling Position is bolted in the location hole on the electromechanical testing platform.

Optionally, the fore bearing shell includes the first cylinder, and the left end of first cylinder radially expands, and is formed Transfer panel is provided with multiple fourth holes and the first circular male half coupling on the transfer panel；The first cylinder other end It radially reduces, forms the second circular male half coupling；The inside of the fore bearing shell is formed with through hole, and the fore bearing shell The other end offers multiple 4th threaded holes；The right end of the fourth hole is stepped hole, and the stepped hole includes clutch shaft bearing Room, the aperture of the clutch shaft bearing room is equal with the first deep groove ball bearing outer diameter, for installing the first deep groove ball bearing；Described The left end of one bearing chamber radially reduces, so as to play thrust function to the first deep groove ball bearing.

Optionally, the rear cartridge housing includes the second cylinder, and the both ends of second cylinder radially expand, and are formed First transfer panel and the second transfer panel；The multiple fifth holes of first transfer panel circumference uniform distribution；The second transfer panel circumference Uniformly distributed multiple 5th threaded holes；Second cylinder sets a circular inner stopper close to first transfer panel one end；Described second Cylinder sets second bearing room, second bearing room aperture and the second deep groove ball bearing outer diameter close to second transfer panel one end It is equal, for installing the second deep groove ball bearing；The internal diameter of second cylinder is less than footpath in second bearing room, to the second zanjon Ball bearing plays thrust function；Cartridge housing is positioned with circular inner stopper after described, is connected by the first transfer panel and fore bearing shell.

Optionally, the bearing baffle is circular ring structure, is connected by bolt and rear cartridge housing, bearing baffle internal diameter size Between the internal diameter and outer diameter of the second deep groove ball bearing outer ring, for limiting the axial displacement of the second deep groove ball bearing.

Optionally, belt pulley connecting shaft includes the spline from left to right set gradually, fillet, clutch shaft bearing shelves, first axle Shoulder, second shaft shoulder, second bearing shelves, groove and cylinder axle body, and the belt pulley connecting shaft right end along its axis side To screwed hole of centre is formed with, the diameter of axle of the clutch shaft bearing shelves is equal with the first deep groove ball bearing internal diameter, is installed for coordinating First deep groove ball bearing, the second bearing shelves are equal with the second deep groove ball bearing internal diameter, and the second deep-groove ball is installed for coordinating Bearing；The diameter of axle size of first shaft shoulder is between the internal diameter and outer diameter of the first deep groove ball bearing inner ring, for limiting The axial displacement of one deep groove ball bearing, the diameter of axle size of second shaft shoulder between the second deep groove ball bearing inner ring internal diameter and outer diameter it Between, for limiting the axial displacement of the second deep groove ball bearing；Groove in the belt pulley connecting shaft is equipped with axis elasticity gear Circle limits the axial displacement of the second deep groove ball bearing with bearing baffle jointly.

Optionally, the belt pulley connecting shaft left end is connected by spline and spline shaft flange, and from left to right according to It is secondary elastic through fore bearing shell, motor steel spring, the first deep groove ball bearing, rear cartridge housing, the second deep groove ball bearing, axis Baffle ring and bearing baffle, the final other end are connected with engine crankshaft belt pulley by stay bolt.

The utility model has the advantages that：The utility model have it is easy to operate, it is at low cost, and can realize biography The advantages that system electromechanical testing platform tests BSG motors, can simulate working condition of the BSG motors in power assembly.

Description of the drawings

Fig. 1 (a) and Fig. 1 (b) is the structural representation of the switching panel of the BSG motor stand test frocks of the utility model Figure；

Fig. 2 (a), Fig. 2 (b) and Fig. 2 (c) are the stent riser structure of the BSG motor stand test frocks of the utility model Schematic diagram；

Fig. 3 is the structure diagram of the BSG motor support bases of the BSG motor stand test frocks of the utility model；

Fig. 4 is the sectional view of the fore bearing shell of the BSG motor stand test frocks of the utility model；

Fig. 5 is the shell sectional view of the rear bearing of the BSG motor stand test frocks of the utility model；

Fig. 6 is the sectional view of the belt pulley connecting shaft of the BSG motor stand test frocks of the utility model；

Fig. 7 is the sectional view of the spline shaft flange of the BSG motor stand test frocks of the utility model；

Fig. 8 is the transmission system sectional view of the BSG motor stand test frocks of the utility model；

Fig. 9 is the structure diagram of the BSG motor stand test frocks of the utility model；

Specific embodiment

The technical solution of the utility model is further elaborated with reference to embodiment and attached drawing.

Embodiment 1

Present embodiments provide a kind of BSG motor stand tests frock, including BSG motor support bases 16, stent riser 14, Switching panel 12, fore bearing shell 9, rear cartridge housing 10, bearing baffle 11 and belt pulley connecting shaft 1.

The BSG motor support bases 16 are connected to electricity by stent riser 14 and the switching panel 12 being connected with stent riser 14 On machine testboard 32；That is, the switching panel 12 is fixed on the electromechanical testing platform 32, the stent riser 14 is solid Due on the switching panel 12, the BSG motor support bases 16 are fixed on the stent riser 14, at this point, tested BSG Motor can be fixed on the BSG motor support bases, so as to start the test to BSG motors.

With reference to figure 1, the switching panel 12 is semicircle ring structure, is distributed uniformly and circumferentially on the switching panel 12 There are 9 through holes, and 5 the first threaded holes 122 are both provided on the circumferential end of the switching panel 12；At described turn The first dowel hole 123 and the second threaded hole 124 are offered on the circumferential end face of junction plate 12, bolt turns through described The switching panel 12 is fixed on the electromechanical testing platform 32 by the through hole on junction plate 12.

With reference to figure 2, opened up on the stent riser 14 there are two the second dowel hole 141, multiple second through holes 142 and Multiple 3rd threaded holes 143 are also formed with multiple cylindrical bosses 145, the cylindrical boss 145 on the stent riser 14 Center line and horizontal direction between angle be 6 °；Two square protrudings 144 are also formed on the stent riser simultaneously； Moreover, 145 center of boss offers the threaded hole perpendicular with boss upper surface；Positioning pin passes through the stent riser 14 The second dowel hole 141 and transfer panel 12 the first dowel hole 123, realize the stent riser 14 and switching panel Positioning between 12, and bolt passes through the second through hole 142 on the stent riser 14 and six on the switching panel 12 A second threaded hole 124 coordinates, and the stent riser 14 is fixed on the switching panel.

As shown in figure 3, offering multiple third through-holes (such as 5) on the BSG motor support bases 16, and it is formed with convex 162 are played, axis and the horizontal direction angle of the third through-hole of the BSG motor support bases 16 are 6 °, and so that the BSG is electric Machine bearing 16 is by the cooperation of the boss 145 on the third through-hole and stent riser 14 that open up thereon, by the BSG motor support bases 16 are fixed on the stent riser.

As shown in figure 9, three footing of the BSG motors 15 respectively with two square protrudings 144 on stent riser 14 And the protrusion 162 on BSG motor support bases 16 is connected；In order to which the stent riser 14 is made to be stably fixed the switching panel On 12, in the present embodiment, reinforcing rib 13 is additionally provided between the stent riser 14 and connection panel 12, it is stable so as to be formed Triangular support configurations.

Location hole is offered on the electromechanical testing platform 32, the fore bearing shell 9 is positioned by the first circular male half coupling 913 In the location hole, and it is bolted on the electromechanical testing platform 32.

In the present embodiment, as shown in figure 4, the fore bearing shell 9 includes the first cylinder 91, first cylinder 91 1 End (left end) radially expands, and forms transfer panel 911, and 16 through holes 912 and first are provided on the transfer panel 911 and are justified Shape male half coupling 913；First cylinder, 91 other end radially reduces, and forms the second circular male half coupling 915；The fore bearing The inside of shell 9 is formed with fourth hole, and the other end of the fore bearing shell offers eight the 4th threaded holes 914；It is described The right end of fourth hole is stepped hole 92, and the stepped hole includes clutch shaft bearing room 921, the aperture of the clutch shaft bearing room 921 It is equal with 5 outer diameter of the first deep groove ball bearing, for installing the first deep groove ball bearing 5；The left end of the clutch shaft bearing room 921 is along footpath To diminution, so as to play thrust function to the first deep groove ball bearing 5；The fore bearing shell 9 is positioned with the first circular male half coupling 913, It is connected by transfer panel 911 and electromechanical testing platform 32.

The other end of the fore bearing shell 9 is fixed in one end of cartridge housing 10 after described, in the present embodiment, as shown in figure 5, Cartridge housing 10 includes the second cylinder 101 after described, and the inside of second cylinder 101 is through hole 102, second cylinder The both ends of body 101 radially expand, and form the first transfer panel 1011 and the second transfer panel 1013；First transfer panel 1011 is justified Eight fifth holes 1012 of Zhou Junbu；Second transfer panel, 1013 circumference uniform distribution, eight the 5th threaded holes 1014；Described second The through hole 102 of cylinder 101 sets a circular inner stopper 1021 close to 1011 one end of the first transfer panel；Second cylinder 101 through hole 102 sets second bearing room 1022 close to 1013 one end of the second transfer panel, 1022 aperture of second bearing room with Second deep groove ball bearing, 6 outer diameter is equal, for installing the second deep groove ball bearing 6；In the through hole 102 of second cylinder 101 Footpath is less than 1022 internal diameter of bearing chamber, and thrust function is played to the second deep groove ball bearing 6；Cartridge housing 10 is with circular inner stopper after described 1021 positioning are connected by the first transfer panel 1011 with fore bearing shell 9；The bearing baffle 11 is circular ring structure, passes through bolt It is connected with rear cartridge housing 10,11 internal diameter size of bearing baffle is used between the internal diameter and outer diameter of 6 outer ring of the second deep groove ball bearing In the axial displacement for limiting the second deep groove ball bearing 6.

1 left end of belt pulley connecting shaft is connected by spline shaft flange 2 with electromechanical testing platform output shaft 31, and passes through One deep groove ball bearing 5 and the second deep groove ball bearing 6 are rotatably supported on the fore bearing shell 9 and rear cartridge housing 10, described The right end of belt pulley connecting shaft 1 is connected with engine crankshaft belt pulley 8；The engine crankshaft belt pulley 8 and BSG motors 15 Belt is installed between output belt pulley, realizes and BSG motors is tested on common electric machine testboard.

With reference to figure 6, the belt pulley connecting shaft 1 includes the spline 41, fillet 42, the clutch shaft bearing that from left to right set gradually 43, first shaft shoulder 44 of shelves, second shaft shoulder 45, second bearing shelves 46, groove 47 and cylinder axle body 48, and connect in the belt pulley The right end of spindle is formed with screwed hole of centre 49,43 diameter of axle of clutch shaft bearing shelves and the first deep groove ball bearing along its axis direction 5 internal diameters are equal, and the first deep groove ball bearing 5, the second bearing shelves 46 and 6 internal diameter phase of the second deep groove ball bearing are installed for coordinating Deng for coordinating the second deep groove ball bearing 6 of installation；The fore bearing shell 9, rear cartridge housing 10, the first deep groove ball bearing 5, second Deep groove ball bearing 6 forms the duplex bearing support construction to belt pulley connecting shaft 1；First shaft shoulder, 44 diameter of axle size is between Between the internal diameter and outer diameter of one deep groove ball bearing, 5 inner ring, for limiting the axial displacement of the first deep groove ball bearing 5, second shaft shoulder 45 diameter of axle sizes are between the internal diameter and outer diameter of the second deep groove ball bearing inner ring, for limiting the axis of the second deep groove ball bearing 6 To displacement；First deep groove ball bearing, 5 left end also has a motor steel spring 4, and it is deep to be easy to belt pulley connecting shaft 1, first The axially position of ditch ball bearing 5, the second deep groove ball bearing 6, and reduce the first deep groove ball bearing 5, the second deep groove ball bearing 6, skin The vibrations that belt wheel connecting shaft 1 generates in testing；Groove 47 in the belt pulley connecting shaft 1 is equipped with circlip for shaft 7, Limit the axial displacement of the second deep groove ball bearing 6 jointly with bearing baffle 11；As shown in figure 8,1 left end of belt pulley connecting shaft Be connected by spline 41 and spline shaft flange 2, and sequentially pass through from left to right fore bearing shell 9, motor steel spring 4, First deep groove ball bearing 5, rear cartridge housing 10, the second deep groove ball bearing 6, circlip for shaft 11, bearing baffle 7, it is final another End is connected with engine crankshaft belt pulley 8 by stay bolt.

With reference to figure 7, in the present embodiment, one end of the spline shaft flange 2 is formed with circular male half coupling 21, and the other end is formed There is spline 24, eight threaded holes 221 are along the circumferential direction evenly equipped on the adapter flange 22 of the spline shaft flange 2；The spline Shaft flange 2 is positioned with circular male half coupling 21, is connected by adapter flange 22 and electromechanical testing platform output shaft 31.

The utility model have it is easy to operate, it is at low cost, and can realize that conventional motors testboard surveys BSG motors The advantages that trying, working condition of the BSG motors in power assembly can be simulated.

Embodiment 2

A kind of BSG motor tests method is present embodiments provided, is included the following steps：

S10, BSG motor stand tests frock is assembled, and installed to electromechanical testing platform 32, belt pulley connecting shaft 1 Splined end is connected with spline shaft flange 2, other end installation engine crankshaft belt pulley 8；

S20, BSG motors 15 are installed to stent riser 14, engine crankshaft belt pulley 8 exports skin with BSG motors 15 Belt and stretcher are installed between belt wheel；

S30, motor experimental bench dynamometer machine is opened, driving belt pulley connecting shaft 1 rotates, and power is transferred to successively and is started Machine crankshaft belt pulley 8, belt, BSG motors 15 by 15 operating mode of upper computer selecting BSG motors, are accordingly tested.

The sequencing of above example only for ease of description, does not represent the quality of embodiment.

Finally it should be noted that：Above example is only to illustrate the technical solution of the utility model, rather than its limitations； Although the utility model is described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that： It still can modify to the technical solution recorded in foregoing embodiments or which part technical characteristic is carried out etc. With replacement；And these modifications or replacement, the essence of appropriate technical solution is not made to depart from various embodiments of the utility model technology The spirit and scope of scheme.

Claims (10)

1. a kind of BSG motor stand tests frock, which is characterized in that including BSG motor support bases, stent riser, switching panel, preceding Cartridge housing, rear cartridge housing, bearing baffle and belt pulley connecting shaft；

The switching panel is fixed on electromechanical testing platform, and the stent riser is fixed on the switching panel, the BSG electricity Machine bearing is fixed on the stent riser,

One end of the fore bearing shell is fixed on the electromechanical testing platform；

The other end of the fore bearing shell is fixed in one end of cartridge housing after described；

The belt pulley connecting shaft left end exports axis connection by spline shaft flange and electromechanical testing platform, and passes through the first deep-groove ball Bearing and the second deep groove ball bearing are rotatably supported on the fore bearing shell and rear cartridge housing, the belt pulley connecting shaft Right end is connected with engine crankshaft belt pulley；It is installed between the engine crankshaft belt pulley and the output belt pulley of BSG motors Belt.

2. BSG motor stand tests frock according to claim 1, which is characterized in that the switching panel is semicircular ring Structure has been distributed uniformly and circumferentially multiple first through hole on the switching panel, at the circumferential end of the switching panel Multiple first threaded holes are both provided in portion；Offered on the circumferential end face of the switching panel the first dowel hole with And the switching panel is fixed on the motor and surveyed by second threaded hole, bolt through the first through hole on the switching panel In test stand.

3. BSG motor stand tests frock according to claim 2, which is characterized in that offered on the stent riser Two the second dowel holes, multiple second through holes and multiple 3rd threaded holes are also formed with multiple circles on the stent riser Cylindrical end tangs are also formed with two square protrudings on the stent riser；Moreover, the cylindrical boss center offer with The perpendicular threaded hole in boss upper surface；Positioning pin through the stent riser the second dowel hole and switching panel the One dowel hole realizes the positioning between the stent riser and panel of transferring, and bolt is passed through on the stent riser Second through hole coordinates with the second threaded hole on the switching panel, and the stent riser is fixed on the switching panel.

4. BSG motor stand tests frock according to claim 3, which is characterized in that opened up on the BSG motor support bases There are multiple third through-holes, and be formed with protrusion, the BSG motor support bases pass through the third through-hole and stent riser that open up thereon On cylindrical boss cooperation, the BSG motor support bases are fixed on the stent riser.

5. BSG motor stand tests frock according to claim 4, which is characterized in that opened up on the electromechanical testing platform There is location hole, the fore bearing shell is located in by the first circular male half coupling in the location hole, and is bolted on On the electromechanical testing platform.

6. BSG motor stand tests frock according to claim 5, which is characterized in that the fore bearing shell includes first Cylinder, the left end of first cylinder radially expand, and form transfer panel, multiple four-ways are provided on the transfer panel Hole and the first circular male half coupling；The first cylinder other end radially reduces, and forms the second circular male half coupling；Before described The inside of cartridge housing is formed with through hole, and the other end of the fore bearing shell offers multiple 4th threaded holes；Described 4th The right end of through hole is stepped hole, and the stepped hole includes clutch shaft bearing room, aperture and the first deep-groove ball of the clutch shaft bearing room Bearing outside diameter is equal, for installing the first deep groove ball bearing；The left end of the clutch shaft bearing room radially reduces, so as to first Deep groove ball bearing plays thrust function.

7. BSG motor stand tests frock according to claim 6, which is characterized in that cartridge housing includes second after described Cylinder, the both ends of second cylinder radially expand, and form the first transfer panel and the second transfer panel；First switching The multiple fifth holes of disk circumference uniform distribution；Multiple 5th threaded holes of second transfer panel circumference uniform distribution；Second cylinder leans on Nearly first transfer panel one end sets a circular inner stopper；Second cylinder sets second bearing close to second transfer panel one end Room, second bearing room aperture is equal with the second deep groove ball bearing outer diameter, for installing the second deep groove ball bearing；Described second The internal diameter of cylinder is less than footpath in second bearing room, and thrust function is played to the second deep groove ball bearing；Cartridge housing is with circle after described Inner stopper positions, and is connected by the first transfer panel and fore bearing shell.

8. BSG motor stand tests frock according to claim 7, which is characterized in that the bearing baffle is annulus knot Structure is connected by bolt and rear cartridge housing, and bearing baffle internal diameter size is between the internal diameter and outer diameter of the second deep groove ball bearing outer ring Between, for limiting the axial displacement of the second deep groove ball bearing.

9. BSG motor stand tests frock according to claim 8, which is characterized in that belt pulley connecting shaft is included from a left side Spline, fillet, clutch shaft bearing shelves, first shaft shoulder, second shaft shoulder, second bearing shelves, groove and the cylindrical shaft set gradually to the right side Body, and screwed hole of centre is formed with along its axis direction in the right end of the belt pulley connecting shaft, the clutch shaft bearing shelves The diameter of axle is equal with the first deep groove ball bearing internal diameter, and the first deep groove ball bearing, the second bearing shelves and second are installed for coordinating Deep groove ball bearing internal diameter is equal, and the second deep groove ball bearing is installed for coordinating；The diameter of axle size of first shaft shoulder is between first Between the internal diameter and outer diameter of deep groove ball bearing inner ring, for limiting the axial displacement of the first deep groove ball bearing, the axis of second shaft shoulder Footpath size is between the internal diameter and outer diameter of the second deep groove ball bearing inner ring, for limiting the axial position of the second deep groove ball bearing It moves；Groove in the belt pulley connecting shaft is equipped with circlip for shaft, limits the second deep-groove ball axis jointly with bearing baffle The axial displacement held.

10. BSG motor stand tests frock according to claim 9, which is characterized in that the belt pulley connecting shaft left end It is connected by spline and spline shaft flange, and sequentially passes through fore bearing shell, motor steel spring, first from left to right deeply Ditch ball bearing, rear cartridge housing, the second deep groove ball bearing, circlip for shaft and bearing baffle, the final other end are bent with engine Shaft pulley is connected by stay bolt.