CN217303794U

CN217303794U - Size measuring device of inclined bearing seat

Info

Publication number: CN217303794U
Application number: CN202221139030.7U
Authority: CN
Inventors: 班文磊; 陶洪洋; 孙文艺; 马君; 黄承发; 王云奎; 陈欢; 童欢欢
Original assignee: Bengbu Triumph Engineering and Technology Co Ltd
Current assignee: Bengbu Triumph Engineering and Technology Co Ltd
Priority date: 2022-05-12
Filing date: 2022-05-12
Publication date: 2022-08-26
Anticipated expiration: 2032-05-12

Abstract

The utility model provides a size measuring device of an oblique bearing seat, which comprises a measuring mechanism and a limiting mechanism; the measuring mechanism comprises a base, a first measuring unit and a second measuring unit; an inclined bearing seat is fixed on the base; a limiting mechanism is fixed on the oblique bearing seat; the central shaft of the limiting mechanism is coaxial with the inclined bearing seat; the first measuring unit and the second measuring unit are fixed on the base, and the first measuring unit and the second measuring unit respectively measure position data of a central shaft of the limiting mechanism. The utility model discloses be provided with measuring mechanism, stop gear in the size measurement device of bearing bracket to one side, set up to coaxial through the center pin with stop gear and bearing bracket to one side, can obtain the central height and the central width of bearing bracket to one side through the position data that first measuring unit and second measuring unit measured the stop gear center pin respectively.

Description

Size measuring device of inclined bearing seat

Technical Field

The utility model relates to a glass automation line technical field specifically is a size measurement device of inclined bearing seat.

Background

On a glass production line, roller way conveying of an annealing kiln is a very critical work, wherein the processing precision of an inclined bearing seat of an auxiliary transmission device is also a key point; the size errors of the center height and the center width of the oblique bearing seat directly affect the meshing between gears during installation, thereby affecting the stability of a transmission device and causing the roller way conveying to work abnormally.

In the past, after the bearing seat is separated from processing equipment such as a machine tool and the like, the center height and the center width of the bearing seat cannot be determined, only rough size measurement can be carried out on the bearing seat through a basic measuring tool, and the size cannot be accurately measured to judge whether the size of the bearing seat meets the requirement, so that the normal operation of roller way conveying is seriously influenced.

As for the precise measurement of the center height and the center width of the angular bearing seat, no technology is disclosed in the prior art, and therefore, a device capable of simultaneously measuring the center height and the center width of the angular bearing seat is needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a device that can simultaneous measurement inclined bearing seat central height and central width is provided.

The utility model discloses a following technical means realizes solving above-mentioned technical problem:

a dimension measuring device of an inclined bearing seat comprises a measuring mechanism (1) and a limiting mechanism (3); the measuring mechanism (1) comprises a base (11), a first measuring unit and a second measuring unit; an inclined bearing seat (2) is fixed on the base (11); a limiting mechanism (3) is fixed on the oblique bearing seat (2); the central shaft of the limiting mechanism (3) is coaxial with the inclined bearing seat (2); the first measuring unit and the second measuring unit are fixed on the base (11), and the first measuring unit and the second measuring unit respectively measure position data of a central shaft of the limiting mechanism (3).

Has the advantages that: the central shaft of the limiting mechanism and the inclined bearing seat are arranged to be coaxial, and the central height and the central width of the inclined bearing seat can be obtained by respectively measuring the position data of the central shaft of the limiting mechanism through the first measuring unit and the second measuring unit.

Furthermore, the first measuring unit is fixed on a transverse plate of the base (11), the second measuring unit is fixed on a vertical plate of the base (11) close to one side of the transverse plate, the inclined bearing seat (2) is fixed on the vertical plate of the base (11) between the first measuring unit and the second measuring unit, and the inclined bearing seat (2) and the second measuring unit are arranged on the same side; the bottoms of the first measuring unit and the second measuring unit are respectively attached to the shaft end faces on two sides of the central shaft of the limiting mechanism (3), and the height of the central shaft of the limiting mechanism (3) and the distance from the central shaft to the vertical plate of the base (11) are respectively measured.

Furthermore, a first mounting opening (21) is formed in the middle of the top end of the oblique bearing seat (2), a second mounting opening (23) is formed in the front side and the rear side of the top end of the oblique bearing seat (2), the first mounting opening (21) and the second mounting opening (23) are both semicircular, and the radius of the first mounting opening (21) is larger than that of the second mounting opening (23); the limiting mechanism (3) is arranged in the first mounting opening (21), and the central shaft of the limiting mechanism (3) is arranged in the second mounting opening (23).

Further, the limiting mechanism (3) comprises a ring gauge (31) and a core rod (33), the ring gauge (31) is a disc, the core rod (33) is a cylinder, a mounting hole is formed in the center of the ring gauge (31), the core rod (33) is fixed in the mounting hole, the core rod (33) penetrates through the mounting hole and extends towards two sides, and the radius of the ring gauge (31) is consistent with that of the first mounting hole (21); the ring gauge (31) is arranged in the first mounting opening (21), and the core rods (33) on two sides of the ring gauge (31) are respectively arranged in the two second mounting openings (23).

Has the advantages that: the radius of the ring gauge is consistent with that of the first mounting hole, and the core rod is arranged at the center of the ring gauge, so that the core rod and the inclined bearing seat can be coaxially arranged.

Further, first measuring unit is first slide caliper (14), first slide caliper (14) include first scale (141), first gauge claw (143), first scale (141) are fixed in on the roof of base (11) diaphragm, first gauge claw (143) slide and set up on the blade of first scale (141), the bottom of first gauge claw (143) is perpendicular to the blade of first scale (141) and sets up, the bottom of first gauge claw (143) with the shaft end face of stop gear (3) center pin is laminated mutually.

Further, the bottom of the first measuring jaw (143) is telescopically arranged.

Further, the second measuring unit is a second vernier caliper (15), the second vernier caliper (15) comprises a second scale (151) and a second measuring jaw (153), the second scale (151) is fixed on the top wall of a vertical plate of the base (11), the second measuring jaw (153) is slidably arranged on a scale body of the second scale (151), and the bottom end of the second measuring jaw (153) is perpendicular to the scale body of the second scale (151); the bottom of the second measuring jaw (153) is attached to the shaft end face of the central shaft of the limiting mechanism (3).

Has the advantages that: through carrying out slidable setting with first graduated flask and first scale, second graduated flask and second scale, can measure the not unidimensional oblique bearing frame.

Furthermore, the bottom of the second measuring jaw (153) is telescopically arranged.

Has the advantages that: through carrying out scalable setting to first graduated flask, second graduated flask, can measure the skew bearing seat of equidimension not.

Furthermore, the vertical section of the inclined bearing seat (2) is similar to a right triangle, and the inclined surface of the inclined bearing seat (2) is fixed on the vertical plate of the base (11) through bolts.

Furthermore, a limiting block (4) is arranged below the inclined bearing seat (2), and the limiting block (4) is fixed on the base (11).

The utility model has the advantages of:

the utility model discloses be provided with measuring mechanism, stop gear in the size measurement device of bearing bracket to one side, set up to coaxial through the center pin with stop gear and bearing bracket to one side, can obtain the central height and the central width of bearing bracket to one side through the position data that first measuring unit and second measuring unit measured the stop gear center pin respectively.

The utility model discloses a set up the radius of ring gage and first installing port into unanimously to with the central department of plug setting at the ring gage, can guarantee that plug and bearing diagonal are coaxial setting.

The utility model discloses a carry out slidable setting with first graduated flask and first scale, second graduated flask and second scale, can measure not unidimensional oblique bearing seat.

The utility model discloses a carry out scalable setting to first graduated flask, second graduated flask, can measure not unidimensional oblique bearing seat.

Drawings

Fig. 1 is a perspective view of a dimension measuring device of an oblique bearing seat according to an embodiment of the present invention;

fig. 2 is a schematic working diagram of a dimension measuring device of an oblique bearing seat according to an embodiment of the present invention;

fig. 3 is a perspective view of an oblique bearing seat according to an embodiment of the present invention;

fig. 4 is a perspective view of another view angle of a skew bearing block according to an embodiment of the present invention;

fig. 5 is a front view of a skew bearing housing according to an embodiment of the present invention;

fig. 6 is a first view working schematic diagram of a dimension measuring device of an oblique bearing seat according to an embodiment of the present invention;

fig. 7 is a second view-angle working schematic diagram of the size measuring device of an oblique bearing seat according to an embodiment of the present invention.

Detailed Description

To make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the embodiments of the present invention are combined to clearly and completely describe the technical solution in the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Example one

As shown in fig. 1, the present embodiment provides a dimension measuring device for an oblique bearing seat, which includes a measuring mechanism 1 and a limiting mechanism 3.

As shown in fig. 1 and 2, the measuring mechanism 1 includes a base 11, a first sliding unit 12, a second sliding unit 13, a first measuring unit, and a second measuring unit; the vertical section of the base 11 is L-shaped; a first sliding unit 12 is fixed at the top end of a transverse plate of the base 11, a second sliding unit 13 is fixed on one side, close to the transverse plate, of a vertical plate of the base 11, an inclined bearing seat 2 is arranged between the first sliding unit 12 and the second sliding unit 13, the inclined bearing seat 2 is fixed on the vertical plate of the base 11, a limiting block 4 is arranged below the inclined bearing seat 2, and the limiting block 4 is fixed on the vertical plate of the base 11 and plays a limiting role; the first sliding unit 12 comprises a first sliding rail 121 and a first sliding block 123 which are matched with each other to horizontally slide, the first sliding rail 121 is fixed on a transverse plate of the base 11, the first sliding block 123 is connected to the first sliding rail 121 in a sliding manner, and a first measuring unit is fixed on the top wall of the first sliding block 123; the second sliding unit 13 comprises a second sliding rail 131 and a second sliding block 133 which are matched with each other to vertically slide, the second sliding rail 131 is fixed on a vertical plate of the base 11, the second sliding block 133 is connected to the second sliding rail 131 in a sliding manner, and a second measuring unit is fixed on the top wall of the second sliding block 133; the first measuring unit is a first vernier caliper 14, and the second measuring unit is a second vernier caliper 15; the first vernier caliper 14 comprises a first scale 141 and a first measuring jaw 143, the first scale 141 is fixed on the top wall of the first slider 123, the first measuring jaw 143 is slidably disposed on the scale body of the first scale 141, and the bottom end of the first measuring jaw 143 is perpendicular to the scale body of the first scale 141; the second vernier caliper 15 includes a second scale 151 and a second measuring jaw 153, the second scale 151 is fixed on the top wall of the second slider 133, the second measuring jaw 153 is slidably disposed on the blade of the second scale 151, and the bottom end of the second measuring jaw 153 is perpendicular to the blade of the second scale 151; the bottom ends of the first measuring jaw 143 and the second measuring jaw 153 are both arranged in a telescopic manner.

As shown in fig. 3, 4, and 5, the vertical cross section of the oblique bearing seat 2 is similar to a right triangle, the inclined surface of the oblique bearing seat 2 is fixed on the vertical plate of the base 11 by bolts, a first mounting opening 21 is formed in the middle of the top end of the short right-angle surface of the oblique bearing seat 2 for mounting a bearing, second mounting openings 23 are formed in the front and rear sides of the top end of the short right-angle surface of the oblique bearing seat 2 for mounting a pin shaft, the first mounting opening 21 and the second mounting opening 23 are semi-circles, and the radius of the first mounting opening 21 is larger than that of the second mounting opening 23.

As shown in fig. 1 and 2, the limiting mechanism 3 includes a ring gauge 31 and a mandrel 33; the ring gauge 31 is a disc, a mounting hole is formed in the center of the ring gauge 31, a core rod 33 is fixed in the mounting hole, the core rod 33 is a cylinder, and the core rod 33 penetrates through the mounting hole and extends towards two sides; the radius of the ring gauge 31 is consistent with that of the bearing, the radius of the core rod 33 is consistent with that of the pin shaft, during measurement, the ring gauge 31 is arranged in the first mounting hole 21, the core rods 33 on two sides of the ring gauge 31 are respectively arranged in the two second mounting holes 23, the bottom end of the first measuring claw 143 is attached to the end face of the rear core rod 33, and the bottom end of the second measuring claw 153 is attached to the end face of the front core rod 33.

During assembly, as shown in fig. 5, the sizes of the center height L1 and the center width L2 need to be measured, and a first reference (a virtual horizontal line at the bottom of the oblique bearing seat 2) and a second reference (a virtual vertical line at the left side of the oblique bearing seat 2) need to be established respectively; as shown in fig. 4, 6, and 7, the upper surface of the first slider 123 coincides with the first reference surface by precision machining, and the upper surface of the second slider 133 coincides with the second reference surface by precision machining; during measurement, a ring gauge 31 matched with the size (R1) of the first mounting opening 21 and a mandrel 33 matched with the size (R2) of the second mounting opening 23 are used, the mandrel 33 penetrates through a mounting hole formed in the center of the ring gauge 31, then the ring gauge 31 is mounted in the first mounting opening 21, and the mandrel 33 is mounted in the second mounting opening 23; the core rod 33 is in transition fit with the ring gauge 31 mounting hole processing equipment, so that the outer diameter mounting surface of the ring gauge 31 is stably attached to the mounting surface of the first mounting hole 21; then the inclined bearing seat 2 is installed on the vertical plate of the base 11 through bolts, and during assembly, the installation surface of the inclined bearing seat 2 is completely attached to the vertical plate of the base 11 and then is fixed through the bolts;

measurement of L1 size (shown in fig. 6):

adjusting and moving the first measuring jaw 143 to enable the bottom surface of the first measuring jaw 143 to be fit with the shaft end surface of the core rod 33, and then reading; the read value is center height (L1) + mandrel radius (R2), and center height (L1) is the read value — mandrel radius (R2);

measurement of L2 size (shown in fig. 7):

adjusting and moving the second measuring jaw 153 to enable the bottom surface of the second measuring jaw 153 to be attached to the shaft end surface of the core rod 33, and then reading; the read value is center width (L2) + mandrel radius (R2), and center width (L2) is the read value — mandrel radius (R2).

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims

1. A dimension measuring device of an inclined bearing seat is characterized by comprising a measuring mechanism (1) and a limiting mechanism (3);

the measuring mechanism (1) comprises a base (11), a first measuring unit and a second measuring unit;

an inclined bearing seat (2) is fixed on the base (11); a limiting mechanism (3) is fixed on the oblique bearing seat (2); the central shaft of the limiting mechanism (3) is coaxial with the inclined bearing seat (2);

the first measuring unit and the second measuring unit are fixed on the base (11), and the first measuring unit and the second measuring unit respectively measure position data of a central shaft of the limiting mechanism (3).

2. A dimension measuring device of a tilting bearing housing according to claim 1, characterized in that: the first measuring unit is fixed on a transverse plate of the base (11), the second measuring unit is fixed on a vertical plate on one side, close to the transverse plate, of the base (11), the inclined bearing seat (2) is fixed on the vertical plate of the base (11) between the first measuring unit and the second measuring unit, and the inclined bearing seat (2) and the second measuring unit are arranged on the same side; the bottoms of the first measuring unit and the second measuring unit are respectively attached to the shaft end faces on two sides of the central shaft of the limiting mechanism (3), and the height of the central shaft of the limiting mechanism (3) and the distance from the central shaft to the vertical plate of the base (11) are respectively measured.

3. A dimension measuring device of a tilting bearing housing according to claim 1 or 2, characterized in that: a first mounting opening (21) is formed in the middle of the top end of the oblique bearing seat (2), a second mounting opening (23) is formed in the front side and the rear side of the top end of the oblique bearing seat (2), the first mounting opening (21) and the second mounting opening (23) are both semicircular, and the radius of the first mounting opening (21) is larger than that of the second mounting opening (23); the limiting mechanism (3) is arranged in the first mounting opening (21), and the central shaft of the limiting mechanism (3) is arranged in the second mounting opening (23).

4. A dimension measuring device of a skew bearing housing according to claim 3, wherein: the limiting mechanism (3) comprises a ring gauge (31) and a core rod (33), the ring gauge (31) is a disc, the core rod (33) is a cylinder, a mounting hole is formed in the center of the ring gauge (31), the core rod (33) is fixed in the mounting hole, the core rod (33) penetrates through the mounting hole and extends towards two sides, and the radius of the ring gauge (31) is consistent with that of the first mounting hole (21); the ring gauge (31) is arranged in the first mounting opening (21), and the core rods (33) on two sides of the ring gauge (31) are respectively arranged in the two second mounting openings (23).

5. A dimension measuring device of a tilting bearing housing according to claim 2, characterized in that: first measuring unit is first slide caliper (14), first slide caliper (14) include first scale (141), first graduated flask (143), first scale (141) are fixed in on the roof of base (11) diaphragm, first graduated flask (143) slide and set up on the blade of first scale (141), the bottom of first graduated flask (143) is perpendicular to the blade of first scale (141) and sets up, the bottom of first graduated flask (143) with the axle end face of stop gear (3) center pin is laminated mutually.

6. A dimension measuring device of a tilting bearing housing according to claim 5, characterized in that: the bottom of the first measuring jaw (143) is arranged in a telescopic mode.

7. A dimension measuring device of a tilting bearing housing according to claim 2 or 5, characterized in that: the second measuring unit is a second vernier caliper (15), the second vernier caliper (15) comprises a second scale (151) and a second measuring jaw (153), the second scale (151) is fixed on the top wall of a vertical plate of the base (11), the second measuring jaw (153) is arranged on a scale body of the second scale (151) in a sliding mode, and the bottom end of the second measuring jaw (153) is perpendicular to the scale body of the second scale (151); the bottom of the second measuring jaw (153) is attached to the shaft end face of the central shaft of the limiting mechanism (3).

8. A dimension measuring device of a tilting bearing housing according to claim 7, characterized in that: the bottom of the second measuring jaw (153) is arranged in a telescopic mode.

9. A dimension measuring device of a tilting bearing housing according to claim 1, characterized in that: the vertical section of the oblique bearing seat (2) is similar to a right triangle, and the inclined surface of the oblique bearing seat (2) is fixed on the vertical plate of the base (11) through bolts.

10. A dimension measuring device of a tilting bearing housing according to claim 1, characterized in that: a limiting block (4) is arranged below the inclined bearing seat (2), and the limiting block (4) is fixed on the base (11).