The ash pan (45) is a composite ash pan and includes an outer pan (201) formed of stainless steel and an inner pan, (203), formed of aluminum, adapted to be removably inserted into the outer pan.
The solvent pan is supported by a pan holder that has slide rails and there is a pan locking device which holds the pan in place during use.
The rear drain pan (70) has a vertical surface part (75), an upper drain pan (72), and a lower drain pan (77).
The invention relates to a basin-shaped element, especially a shower pan or bathtub, which is constructed as a plastic injection molded part.
A bowl (33) is located above the chamber and a removable pan (45) located below the chamber.
The basin includes a basin floor.
The pedicure basin has a main basin and a secondary basin.
The invention relates to a wash bowl with an inner basin having a smaller diameter which graduates into an outer basin having a larger diameter.
The invention relates to a water closet (1) comprising a ceramic bowl (2) with a bowl basin (4) and a receiving opening (5).
The die set comprises a die block defining a basin and a punch shaped to interact with the basin.
The mechanism (1) generally includes a spring (26), a springcup (12) and a drive cup (20).
An upper second cup (100) is fitted in the opening of the first cup, the second cup or cap having a central portion forming a transverse wall or web (98), spaced above the bolt head.
A coating material dispensing apparatus comprising a bell cup (10) and a motor (11) for rotating the bell cup about an axis of rotation of the bell cup.
Generally, the apparatus includes a double wall plating vessel having an inner cup and an outer cup peripherally surrounding and spaced apart from the inner cup.
The inner cup has an inlet for receiving a plating solution and an outlet from which the plating solution overflows into a plenum defined between the inner and outer cups.
A dish with a dish surface (28) is connected to the burner throat (40); the dish surface (28) extending in a divergent angle with respect to a burner centerline (35).
Connecting area of the Dish filling unit
The second thrust race member(60) includes a radial race surface(61) and a piloting flange extending from the race surface and includes a retaining lip(64).
The first thrust race member (52) includes a radial race surface (53), a flange extending from the race surface and a radial lip(54) extending radially beyond the flange(56).
A toilet bowl unit has a bowl (1), a turntable cover (2), water supplying element (4) in the interior of the bowl, and a foot pedal (14) outside the bowl.
It includes a bowl (1), a tank (2), a seat ring (3) and a cover (4).
Apparatus for rapid chilling of bottles and cans having a main bowl (46) and an inner bowl (48) in the main bowl.
The step is set in front of the bowl and extends to both sides of the bowl.
The combustion bowl has a substantially uniform bowl sidewall thickness.
The cuvette (19) consists of a different material than the cuvette carrier (14) and the wettability of the cuvette carrier (14) is greater than the wettability of the cuvette (19).
The invention relates to a cuvette module, comprising a cuvette carrier (14) and a cuvette (19) held by the cuvette carrier (14).
The cuvette (10) includes a receptacle having flanges (30) which are flexible to enhance the positioning of the cuvette.
The housing has a cuvette holder that is shaped to provide a very snug fit for the cuvette.
If determined not to reuse a previously used and cleaned reaction cuvette, the previously used and cleaned reaction cuvette is replaced with an unused new reaction cuvette.
An emboss pit is formed in the first emboss pit region (21).
An emboss pit is formed in the second emboss pit region (23).
pit depth of a passenger lift
pit depth of a passenger lift
The write-once pattern has a 3T(pit: recess)-2T(land: projection)-3T(pit: recess) shape.
Grinder head (10) includes a grinding bowl (12) provided with a boss 14 fixed to a bottom wall 16 of the bowl (12) and projecting into the bowl (12).
The bearing is housed therein and has an inner race, outer race, and a rolling element.
The bearing arrangement comprises a stationary bearing race, a rotating bearing race and a bearing.
The bearing assemblies (25) each include a bearing housing (26) and a bearing retainer (28) that cooperate to shield the bearing assembly (25).
The bearing (14) has an inner (20) and an outer race (21), and the outer race (21) has a thickened diameter.
The invention relates to a roller bearing (6) comprising bearing rings (5, 10), the rolling surfaces (7, 15) of which roll the rolling bodies (9).
The invention relates to a bearing cage (5) for a rolling bearing (1), and to a rolling bearing (1).
The invention also relates to the use of the bearing cage (5) or of a bearing ring of the rolling bearing (1) for reducing the number of particles in a bearing chamber of the rolling bearing (1).
A rolling bearing, a camshaft device, and a camshaft supporting device.
Each of the rollers include a concave radial race surface interposed between axially spaced radial race surfaces.
Said roller bearings (4, 5) each comprise an inner and an outer track, whereby the outer tracks of both bearings are connected to the first joint piece (1) and the inner tracks of both roller bearings (4, 5) are connected to the second joint piece.
The invention relates to a double-row roller bearing (1) comprising a one-piece bearing ring (2), a bearing ring (3) that is split in the axial direction, and rolling bodies (4, 5) that are arranged between said two bearing rings.
An antifriction bearing (2) is produced as roller bearing while the other antifriction bearing is produced as cylindrical roller bearing.
The needle roller bearing has needle rollers (3) and also has a bearing outer ring (1) and a bearing inner ring (2) that have rolling surfaces on which the needle rollers (3) roll.
Said mounting on roll bearings also comprises rolling bodies (7, 7', 7'') which are arranged between the first bearing race (3) and the second bearing race (4) so that they can roll on said bearing races.
A tread portion (2) is widthwise divided into five regions of a central tread portion region (A), shoulder tread portion regions (C) and intermediate tread portion regions (B).
The tie shaft includes an intermediate tie shaft segment connected axially between a first tie shaft segment and a second tie shaft segment.
An irradiation source (32) is within an elliptical trough (34), on the major axis of the trough (34), and spaced from the focal axes of the trough (34).
The sanitary ware comprises a closet body (1) connected with a cistern (3) and a closet cover (2) mounted on the closet body (1).
An induction device (11) is installed in the front of the closet body (1) or between the closet cover (2) and the closet body (1).
The tub depth is maintained below a maximum tub depth.
The spacer can also be embodied as a pot-type or pot segment-type protrusion (5).
Carboy, non-protected CO
retainer of a cardan shaft
retainer of a cardan shaft
A container comprising an inner thermoformed vessel (1) and an outer thermoformed vessel (2), arranged the one within the other.
The side walls (9) of the outer forming (2) surround the side walls (10) of the inner forming (1).
The front plate-shaped deepened structure is placed in the rear deepened structure of a structurally identical second snow glider or is slid underneath it.
It is common with rotary irons having directly heated iron recesses (10) to design the iron recesses (10) in a double-walled manner.
In one embodiment, the chamber (10) includes a bladder-like casing, which is formable into a bowl-like chamber having a bowl-shaped outer wall (32) and a bowl-shaped inner wall (34).
When the bowl is placed on the work surface, the gasket provides a seal that inhibits flow of fluid there between until a user lifts the bowl to drain the water there from.
Another embodiment of the invention is directed toward a glass fiber bushing system comprising a bushing body (12) and a screen within the bushing body.
During the connection of the rim (46) to the bowl (50), the bowl (50) is preferably supported on two opposing sides (24, 25) by the mold.
A disc for a disc brake comprises a supporting bell (2), a braking strip (3) coaxial with the bell, and a plurality of cylindrical pins for connecting the braking strip (3) to the supporting bell (2).
The invention relates to a combustion toilet comprising a toilet section (2), at least one outlet (3) from the toilet section (2) and a combustion section (4) connected to the outlet.
A second lining covers the inner upper edge of the sanitary element, while a third lining covers the seat of the sanitary element, the rest of the rectangle surrounding the front part of the sanitary element.
The toilet bowl nozzle (40) has a toilet bowl nozzle body (41) and a jet flow forming member (42) inserted in the toilet bowl nozzle body (41).
A toilet device has a bowl flush device for mixing a cleaning agent, which removes stains on the inner wall surface of a bowl, into flush water jetted to the bowl.
The toilet bowl has an interior bowl surface with an upper peripheral p01iion configured to have a shelf formed therein below an upper peripheral edge of the toilet bowl.
containment vessel foundation bowl
A rotary toilet bowl is disclosed.
The trough receives the hem ring of a condom.
The crushed material is discharged through the bowl.
A double-bowl toilet.
The chassis is provided with a running gear with at least one revolving chain (10) which is led along a floor surface to effect force transmission from revolving means.
The rolling members form a rolling-member perimeter (28).
The first race surface and the second race surface define a raceway therebetween.
The bearing assembly comprises an outer race, an inner race, a shaft, a collar, and a seal.
The rolling bodies (3) are arranged on the rolling side (6) of the rolling plate (4).
The tread includes a plurality of tread elements disposed in a tread pattern The plurality of tread elements have one of two different pitch lengths and are disposed in a noise-reducing pitch sequence.
A tire includes a tire carcass and a tread extending circumferentialIy about the tire carcass The tread includes a plurality of tread elements disposed in a tread pattern.
The radial clearance can thereby be provided either between the deep-groove ball bearing's outer race (6) and the bearing sleeve (7) or between its inner race (8) and the rotor shaft (2).
The invention relates to a shoulder-type ball bearing or angular contact ball bearing comprising balls (2) which are disposed between an outer bearing ring (3) and an inner bearing ring (4).
The center of the oscillation of the bearing race in the reception groove is positioned between the raceway rail-side rolling surface and the slider-side load rolling surface that are opposed to each other.
Each couple configured by a first track (28) and a second track (34) assigned thereto forms a seat for a rolling body arranged between the tracks (28, 34).
The invention relates to a release bearing for clutches comprising an external bearing ring (6) and an internal bearing ring (3) with guided rolling bodies (4) which are arranged preferably in a cage (5) between said bearing rings.
The invention relates to a driving situation detection system for monitoring and analyzing driving situations of a vehicle, for instance, straight-ahead driving, cornering and the like.
The invention relates to a ball bearing comprising an inner ring (2) and an outer ring (1) that is disposed coaxial thereto.
A rolling-element clutch assembly (14) including a first race member (16), a second race member (18) and a plurality of rolling elements (10).
The bearing (6) has two sets of raceways (28, 40) that are oblique to the axis x, and in addition rolling elements (36) arranged in two rows between the sets of raceways (28, 40).
The use of the single row tapered bearing and the preloaded angular contact ball bearing provides for a locating bearing assembly ('LBA') in which the ball bearing supports only reversing axial loads.
The bearing unit comprises the bearing (1), a housing (14) in which the bearing is installed, a shaft (19), covers (3) and (4), and bearing unit components such as seals (10) for the housing.
A bearing assembly (100) may include the first race and the second race that define the sealing gap, and the described bearing seal assembly.
A bearing seal assembly (110, 112, 114) seals a sealing gap (26) defined by a first race (10) and a second race (12) of a bearing (100).
The shaft journal (31) is configured as a hollow shaft.
The shaft extension defines a first bearing shaft surface.
The shaft includes a shaft bore formed by a shaft wall.
A shaft coupling allowing large axial movements between an axially stationary and a concentric axially movable shaft end.
The camshaft assembly has an outer camshaft piece and an inner camshaft piece.
A total pylon position is calculated from the pylon position and the dynamic pylon position.
For each attribute in the tree structure, a partial tree structure of the tree- structure is generated for the attribute.
The cause of the shaft current (1) or the shaft voltage (U) is determined using the frequency (F) of said shaft current (1) or the shaft voltage (U).
The method includes: detecting a tree path satisfying a predetermined tree path policy from a document; and building a tree structure corresponding to the document by using the detected tree path.
The apparatus comprises a tree mount with a removable and easily positioned tree tube and a positioning mechanism communicating there between.
To this end, firstly, the 0° position of the first shaft section is determined by a first shaft signal, and the 0° position of the second shaft section is determined by a second shaft signal.
A shaft core base (22) is provided in a root part of the shaft core (21) of the rotor (20) and embedded into the shaft hole (12) of the shaft column (11).
A downhole motor for directional drilling includes a driveshaft assembly including a driveshaft housing and a driveshaft rotatably disposed within the driveshaft housing.
Said tree tube slidably fits with said tree mount and allows the float cords to extend from said tree tube.
A central shaft is referred as the wheel shaft of the rotating shaft sleeve, and the rotating shaft sleeve is referred as the central shaft sleeve of the rim.
The tree cap may be a low profile tree cap that is flush with the top of the tree spool when installed.
The rotational force of an outer shaft output shaft (24) is transmitted to the outer shaft (11) via a flexible shaft joint (19) (gear coupling (19A)).
The tree cap 100 may include deflectable collet fingers 110, 120 that lock the tree cap 100 to a tree spool 200.
The rotating shaft mechanism (45) includes a shaft sleeve (451) fixed with the side plate (32) and a rotating shaft (452) restricted within the shaft sleeve (451).
A rotating shaft device is provided, which may comprise a male shaft member (2) and a female shaft member (3) fitted over the male shaft member.
The shaft member (2) includes a shaft portion (21) and a flange portion (22) disposed at one end of the shaft portion (21).
The camshaft has a shaft member, a cam member fixed to the shaft member, and a movable bearing member rotatable with respect to the shaft member.
If the partial tree structure comprises multiple paths, the process is recursively repeated for the partial tree structure instead of the tree structure.
The camshaft (7) according to the invention has a camshaft body (5) and a camshaft wheel (1) which is attached to the camshaft body (5).
The first tie shaft segment includes a first threaded tie shaft surface that is mated with a first threaded shaft surface of the first sub-shaft.
The second tie shaft segment includes a second threaded tie shaft surface that is mated with a second threaded shaft surface of the second sub-shaft.
The shaft center of the auxiliary rocker-arm shaft (2052) is biased from the shaft center of the eccentric rocker-arm shaft bush (188).
The pin comprises a hollow shaft cylinder (10) and solid shaft ends (20) fixedly connected at two ends of the shaft cylinder (10).
The shaft bore extends along an axial centerline through the shaft between a first shaft end and a second shaft end.
The second shaft connecting flange is spaced from the first shaft connecting flange.
A shaft member-side annular member (13) is fixed with respect to the shaft member.
The shaft assembly can have a hollow shaft member and at least one liner.
The invention relates to a shaft-driven generator system having a shaft-driven generator (18).
Shaft clamps (60) are press fitted on the shaft sections (18, 46).
The shaft sleeve (400) is arranged in coaxial rotation with the main shaft component (300).
The valve shaft assembly includes a first shaft portion and a second shaft portion.
The tree block group comprises a plurality of concurrently-coded tree blocks in the current picture.
Also, there are provided methods.
The shaft defines a shaft axis.
The primary ingredients of the gel are water and Tea Tree Oil and/or Tea Tree Blend.
This system incorporates dry running shaft seals at the high and low pressure turbine shaft glands.
An impeller shaft extends through the shaft opening and is sized to define a gap between the impeller shaft and the shaft opening.
A driving shaft (50) is fitted in the shaft-insertion portion (32) of the shaft bushing (30).
The invention relates to a method for determining an angle α between a first shaft section and a second shaft section.
A shaft extension member transfers torque between the pulley member and the shaft engaging member.
The method includes receiving a first shaft position signal and a second shaft position signal.
Both of the bearing on the output shaft side and the bearing opposite the output shaft side journal the shaft.
The knife part (16) is meant to debark the tree trunk (10) on the tree processing route.
A bearing (13) is fixed in a shaft hole (12) of the shaft column (11) of the stator.
The first shaft member and the second shaft are operable to connect to rear vehicle wheels.
The rotary shaft (42) has a shaft body and a set of capture portions (48A, B) supported by the shaft body.
The servo motor includes a sensor used to determine a rotor shaft speed and/or a rotor shaft torque.
The shaft member (2) has the shaft section (21), the flange section (22), and a sliding section (23).
The annular body (4a) is connected to the shaft end (5a) by being fitted onto the shaft end (5a).
A front shaft (19) connects left and right shaft sleeves (16, 18) and a rotation shaft screw (17).
The shaft member has a protruding section that protrudes outwards in a direction intersecting the axial direction of the shaft member.
The invention relates to a shaft bearing with a shaft seal, in particular for water pumps in motor vehicles.
The query optimizer performs statistics tree transformation operations on the statistics tree structure.
The shaft body is associated with the drive shaft, and the screw section is provided to the shaft body.
The shaft cartridge is able to rotate and articulate the end effector, and the shaft assembly extends from the shaft cartridge.
The usage of individual trunk pieces for constructing the tree trunk facilitates assembling and disassembling of the tree trunk.
Also disclosed are an oscillating shaft mechanism and an energy damping mechanism incorporating the shaft mount.
The driveshaft vessel assembly comprises a driveshaft vessel and an outlet guide vane.
A balloon catheter (1) comprises a shaft section (2) and the balloon (10) which is fixed to the shaft section.
The drive shaft ends (6,7) are connected together by a hydraulic coupling (10) between a tie rod (8) of one of the drive shaft ends (7) and a receiving portion (15) of the other drive shaft end (6).
Said force transducer (10) comprises a shaft core that extends in a longitudinal direction and a sleeve (28) which extends substantially across the length of the shaft core (24), envelops said shaft core (24), and is connected thereto in a fixed manner.
The shaft member 12 includes a tubular support 16 and a pair of shaft sections 18 extending in the axial direction to define a rotary axis of the shaft member 12.
A shaft journal (30) is secured in the drive shaft part (10) and is eccentrically positioned (R) in relation to the centre line (A) of the drive shaft part.
A propeller shaft assembly (10) comprises a connect shaft portion (16) , a plungable constant velocity joint (12) , and a hollow shaft portion (18) with a cavity (28) .
A spline shaft portion (54) and a first engagement protrusion (52) are provided at distal ends of the core shaft portion (50) and sleeve shaft portion (48).
The shaft section (2) has one or more grooves (2d) formed in the outer peripheral surface of a head of a circular column-shaped shaft body (2a) so as to extend in the longitudinal direction of the shaft section.
The system includes an airspeed command module, a pylon trim position module, a dynamic pylon position module, and a pylon position module.
The guide member (5) is provided, at one end of the shaft section (50) thereof, with an eccentric shaft section (53) extending in the axial direction and eccentric to the axis of the shaft section (50).
The invention relates to a method for producing a camshaft module (2), a camshaft module, and an assembled camshaft, in particular for use in such a camshaft module.
The operation section (5) has a shaft member (27) extending in the substantially horizontal direction and a knob member (20) fixed to one end of the shaft member (27) and having a shape symmetrical about the shaft member (27).
The lock body has a body shaft hole into which the shaft member is inserted and also has a body side groove or a body side hole into which the shaft member is inserted.
The shaft member and the lock body are joined together with screw threads and the engagement member is placed straddling the shaft member and the lock body, rendering the shaft member not to be rotatable.