CN112008626A - Machining positioning equipment for manufacturing mechanical bearing - Google Patents

Abstract

The invention discloses a processing and positioning device for manufacturing a mechanical bearing, which structurally comprises a base, a machine body, a positioning table, a control panel, a connecting rod and a placing plate, wherein the positioning table is fixedly embedded at the front lower end of the machine body and comprises a fixed plate, a positioning mechanism, a seat table, a connecting block, a connecting plate and an auxiliary plate, the auxiliary plate is movably clamped at the middle section of the positioning mechanism, and the positioning mechanism is movably clamped between the auxiliary plate and the fixed plate. Thereby can make the firm block of bearing between the antiskid piece, avoid the bearing to fix the problem of not doing all can during the location.

Description

Machining positioning equipment for manufacturing mechanical bearing

Technical Field

The invention relates to the field of bearing manufacturing, in particular to machining positioning equipment for manufacturing a mechanical bearing.

Background

The bearing is an important part in the modern mechanical equipment, the main function of the bearing is to support a mechanical rotating body, reduce the friction coefficient in the movement process and ensure the rotation precision of the mechanical rotating body, the bearing mainly comprises an outer ring, an inner ring, a retainer and round balls, in the production process of the bearing, the specification of the bearing needs to be met due to high use precision of the bearing, wherein the processing and positioning are important steps, the traditional bearing positioning method adopts tools such as a hammer and the like to knock the bearing to enable the bearing to reach a specified position, but the positioning can be carried out by adopting the method, but the fixed position of the bearing is easy to deviate, the bearing is damaged, and the service life of the bearing is shortened.

Disclosure of Invention

The invention provides a machining and positioning device for manufacturing a mechanical bearing, aiming at the problem that the machining and positioning device is easy to cause fixed position deviation to the bearing although positioning can be carried out by adopting a traditional bearing positioning method which adopts a hammer and other tools to knock the bearing to enable the bearing to reach a specified position because the bearing has high use accuracy and the specification of the bearing needs to be met.

In order to achieve the purpose, the invention is realized by the following technical scheme: the structure of the machining positioning equipment for manufacturing the mechanical bearing comprises a base, a machine body, a positioning table, a control panel, a connecting rod and a placing plate, wherein the control panel is connected with the machine body through the connecting rod, the machine body is fixedly connected to the top end of the base in an embedded mode, the placing plate is connected to the upper portion of the base in a bolted mode, the positioning table is fixedly connected to the front lower end of the machine body in an embedded mode, the positioning table mainly comprises a fixed plate, a positioning mechanism, a seat table, a connecting block, a connecting plate and an auxiliary plate, the connecting block is connected to the upper portion of the auxiliary plate in a bolted mode, the auxiliary plate is movably clamped to the middle portion of the positioning mechanism, the seat table is fixedly connected to the upper end of the fixed plate in an embedded mode, the connecting.

As a further improvement of the invention, the positioning mechanism mainly comprises a rod sleeve, a movable block, a supporting rod, adjusting heads and a threaded rod, wherein the rod sleeve is fixedly embedded at the upper end of a fixed plate, the supporting rod is matched with the movable block and is connected in the rod sleeve in a transition mode, the threaded rod is connected above the fixed plate in a nested mode, the adjusting heads are installed outside the threaded rod in a clearance fit mode, the adjusting heads are connected above the side of the supporting rod through bolts, the positioning mechanism is arranged at four positions in total and are evenly distributed at four corners of the fixed plate, and the adjusting heads are attached to the lower portion of.

As a further improvement of the invention, the adjusting head mainly comprises a support rod, a blocking sheet, a combination ring and a contact ring, wherein the blocking sheet is nested outside the support rod, the combination ring is connected with the contact ring, the combination ring is embedded and fixedly connected at one end of the support rod, the contact ring is made of stainless steel, has certain sliding property and corrosion resistance, is in an arc state and is attached to the threaded rod.

As a further improvement of the present invention, the contact ring mainly includes a combination plate, a protruding strip and a sliding groove, the protruding strip and the sliding groove are of an integrated structure, the protruding strip and the sliding groove are fixedly embedded above the combination plate, the protruding strip and the sliding groove are of a spiral structure, and are installed in clearance fit with the threaded rod, and long threaded rotation adjustment is required.

As a further improvement of the invention, the auxiliary board mainly comprises a main board, an auxiliary board, hollow grooves and clamping mechanisms, wherein the hollow grooves penetrate through four corners of the main board, the auxiliary board is fixedly embedded at the bottom of the main board, the clamping mechanisms are riveted and connected at the central position of the main board, an opening is formed in one side of the main board and is in a straight channel, the opening is communicated with the clamping mechanisms in the middle, and the clamping mechanisms are in two wider semicircular structures.

As a further improvement of the present invention, the fastening mechanism mainly includes a coupling piece, an anti-slip piece, and an extension plate, the anti-slip piece is attached inside the coupling piece, the extension plate is fixedly embedded at one end of the main board, the coupling piece is riveted at the center of the main board, and the anti-slip piece is made of natural latex and has certain friction performance and flexibility.

Advantageous effects

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, the movable block is driven by the support rod to move in the rod sleeve, when the support rod is moved and positioned, the raised lines and the sliding grooves of the contact ring at the front end of the adjusting head are meshed and matched on the surface layer of the threaded rod, and more raised lines and sliding grooves are arranged on the contact ring, so that the number of thread coils of the threaded rod is increased, the positioning distance of the positioning mechanism is further increased, and the positioning effect is more accurate.

2. According to the invention, firstly, the bearing slides into the space between the joint sheet and the anti-slip sheet in the middle along the main board above the auxiliary board, and the anti-slip sheet is in a semicircular state and is attached to the round bearing, so that the bearing can be firmly clamped between the anti-slip sheets, and the problem of non-fixing of the bearing during positioning is avoided.

Drawings

FIG. 1 is a schematic structural diagram of a machining positioning apparatus for manufacturing a mechanical bearing according to the present invention.

FIG. 2 is a front view of the positioning table of the present invention.

Fig. 3 is a schematic structural diagram of a positioning mechanism semi-sectional device of the present invention.

Fig. 4 is a schematic top view of an adjusting head according to the present invention.

FIG. 5 is a schematic view of a contact ring in half section according to the present invention.

FIG. 6 is a schematic top view of the auxiliary plate of the present invention.

FIG. 7 is a side cross-sectional structural view of the engaging mechanism of the present invention.

In the figure: the device comprises a base-1, a machine body-2, a positioning table-3, a control panel-4, a connecting rod-5, a placing plate-6, a fixing plate-31, a positioning mechanism-32, a seat table-33, a connecting block-34, a connecting plate-35, an auxiliary plate-36, a rod sleeve-a 1, a movable block-a 2, a supporting rod-a 3, an adjusting head-a 4, a threaded rod-a 5, a supporting rod-a 41, a blocking piece-a 42, a combining ring-a 43, a contact ring-a 44, a combining plate-a 441, a convex strip-a 442, a sliding groove-a 443, a main plate-b 1, a sub plate-b 2, a hollow groove-b 3, a clamping mechanism-b 4, a combining piece-b 11, an anti-slip piece-b 12 and an extension plate-b 13.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1

As shown in fig. 1-5:

the invention provides a processing and positioning device for manufacturing a mechanical bearing, which structurally comprises a base 1, a machine body 2, a positioning table 3, a control plate 4, a connecting rod 5 and a placing plate 6, the control panel 4 is connected with the machine body 2 through a connecting rod 5, the machine body 2 is fixedly connected with the top end of the base 1 in an embedded manner, the placing plate 6 is connected above the base 1 through a bolt, the positioning table 3 is fixedly connected at the front lower end of the machine body 2, wherein, the positioning table 3 mainly comprises a fixed plate 31, a positioning mechanism 32, a seat table 33, a connecting block 34, a connecting plate 35 and an auxiliary plate 36, the joint block 34 is connected above an auxiliary plate 36 through bolts, the auxiliary plate 36 is movably clamped at the middle section of the positioning mechanism 32, the seat 33 is fixedly connected with the upper end of the fixed plate 31, the connecting plate 35 is connected above the positioning mechanism 32 in a nesting mode, and the positioning mechanism 32 is movably clamped between the auxiliary plate 36 and the fixed plate 31.

Wherein, positioning mechanism 32 mainly includes rod cover a1, loose piece a2, bracing piece a3, regulation head a4, threaded rod a5, rod cover a1 inlays the fixed plate 31 upper end of firm connection, bracing piece a3 cooperation loose piece a2 transitional coupling is inside rod cover a1, threaded rod a5 nested connection is above fixed plate 31, it installs outside at threaded rod a5 to adjust head a4 clearance fit, adjust head a4 bolted connection in bracing piece a3 side top, positioning mechanism 32 is equipped with everywhere altogether, and evenly distributed installs in fixed plate 31 four corners, and adjusts head 387a 4 and laminate in accessory plate 36 below, can effectually adjust the location to accessory plate 36.

Wherein, regulation head a4 mainly includes branch a41, blocks piece a42, combines ring a43, contact ring a44, it is outside at branch a41 to block piece a42 nested connection, it is connected with contact ring a44 to combine ring a43, it connects in branch a41 one end to combine ring a43 to inlay, contact ring a44 adopts stainless steel, has certain slidability and anticorrosive ability, and is the arc state, laminates mutually with threaded rod a5, can improve positioning mechanism 32's rotation ability simultaneously.

The contact ring a44 mainly includes a combination plate a441, a protruding strip a442, and a sliding slot a443, where the protruding strip a442 and the sliding slot a443 are integrated into a single structure, the protruding strip a442 and the sliding slot a443 are fixedly embedded above the combination plate a441, the protruding strip a442 and the sliding slot a443 are in a spiral structure, and are installed in clearance fit with the threaded rod a5, so that a long threaded rotation adjustment is required, and the positioning capability of the positioning mechanism can be further improved.

The specific use mode and function of the embodiment are as follows:

after the bearing is clamped into the clamping mechanism b4, the support bar a3 drives the loose piece a2 to move in the bar sleeve a1 through the control panel 4, the adjusting head a4 at the top end of the support bar a3 is attached to the auxiliary plate 36 with the bearing clamped, when the support bar a3 is moved and positioned, the convex strips a442 of the contact ring a44 at the front end of the adjusting head a4 and the sliding grooves a443 are meshed and matched on the surface layer of the threaded bar a5, and more convex strips a442 and sliding grooves a443 are arranged on the contact ring a44, so that the number of thread coils of the threaded bar a5 is increased, the positioning distance of the positioning mechanism 32 is further increased, and the positioning effect is more accurate.

Example 2

As shown in fig. 6-7:

the invention provides machining and positioning equipment for manufacturing a mechanical bearing, wherein an auxiliary plate 36 mainly comprises a main plate b1, an auxiliary plate b2, a hollow groove b3 and a clamping mechanism b4, wherein hollow grooves b3 penetrate through four corners of the main plate b1, the auxiliary plate b2 is fixedly embedded at the bottom of the main plate b1, the clamping mechanism b4 is connected to the center of the main plate b1 in a riveting mode, an opening is formed in one side of the main plate b1 and is in a straight channel, the clamping mechanism b4 is communicated to the middle of the main plate b1, and the clamping mechanism b4 is in two wider semicircular structures, so that a bearing can be effectively and stably clamped inside a clamping mechanism b4 along the opening.

The clamping mechanism b4 mainly comprises a combination piece b11, an anti-slip piece b12 and an extension plate b13, wherein the anti-slip piece b12 is attached to the inside of the combination piece b11, the extension plate b13 is fixedly connected to one end of a main plate b1 in an embedded mode, the combination piece b11 is connected to the center of the main plate b1 in a riveting mode, the anti-slip piece b12 is made of natural latex and has certain friction performance and flexibility, bearing abrasion can be effectively avoided, and better clamping can be conducted on the anti-slip piece b 12.

The specific use mode and function of the embodiment are as follows:

before the bearing is positioned, firstly, the bearing slides into the space between the joint piece b11 and the antiskid piece b12 at the middle part along the main plate b1 above the auxiliary plate 36 through the matching of the extension plate b13, and the antiskid piece b12 is provided with two symmetrical parts which are in a semicircular state and just attached to the circular bearing.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (6)

1. The utility model provides a machinery bearing makes with processing positioning equipment, its structure includes base (1), organism (2), location platform (3), control panel (4), connecting rod (5), places board (6), control panel (4) are connected with organism (2) through connecting rod (5), organism (2) are embedded solid and are connected on base (1) top, place board (6) bolted connection in base (1) top, its characterized in that: the positioning table (3) is fixedly connected to the front lower end of the machine body (2) in an embedded manner;

the positioning table (3) mainly comprises a fixing plate (31), a positioning mechanism (32), a seat table (33), a connecting block (34), a connecting plate (35) and an auxiliary plate (36), wherein the connecting block (34) is connected above the auxiliary plate (36) through bolts, the auxiliary plate (36) is movably clamped at the middle section of the positioning mechanism (32), the seat table (33) is fixedly embedded at the upper end of the fixing plate (31), the connecting plate (35) is connected above the positioning mechanism (32) in a nested manner, and the positioning mechanism (32) is movably clamped between the auxiliary plate (36) and the fixing plate (31).

2. The machining positioning device for manufacturing the mechanical bearing according to claim 1, wherein: positioning mechanism (32) mainly include pole cover (a1), loose piece (a2), bracing piece (a3), adjust head (a4), threaded rod (a5), pole cover (a1) are embedded and are connected fixed plate (31) upper end, bracing piece (a3) cooperation loose piece (a2) transitional coupling is inside pole cover (a1), threaded rod (a5) nested connection is in fixed plate (31) top, adjust head (a4) clearance fit and install in threaded rod (a5) outside, adjust head (a4) bolted connection and be in bracing piece (a3) side top.

3. The machining positioning device for manufacturing the mechanical bearing according to claim 2, wherein: adjusting head (a4) mainly includes branch (a41), stop plate (a42), combination ring (a43), contact ring (a44), stop plate (a42) nested connection is outside branch (a41), combination ring (a43) is connected with contact ring (a44), combination ring (a43) embedded solid is connected in branch (a41) one end.

4. The machining positioning device for manufacturing the mechanical bearing according to claim 3, wherein: the contact ring (a44) mainly comprises a combination plate (a441), a protruding strip (a442) and a sliding groove (a443), wherein the protruding strip (a442) and the sliding groove (a443) are of an integrated structure, and the protruding strip (a442) and the sliding groove (a443) are fixedly connected above the combination plate (a 441).

5. The machining positioning device for manufacturing the mechanical bearing according to claim 1, wherein: the auxiliary board (36) mainly comprises a main board (b1), an auxiliary board (b2), hollow grooves (b3) and a clamping mechanism (b4), wherein the hollow grooves (b3) penetrate through four corners of the main board (b1), the auxiliary board (b2) is fixedly connected to the bottom of the main board (b1) in an embedded mode, and the clamping mechanism (b4) is connected to the center of the main board (b1) in a riveting mode.

6. The machining positioning device for manufacturing the mechanical bearing according to claim 5, wherein: the clamping mechanism (b4) mainly comprises a combined sheet (b11), an anti-slip sheet (b12) and an extension plate (b13), wherein the anti-slip sheet (b12) is attached to the inside of the combined sheet (b11), the extension plate (b13) is fixedly connected to one end of a main plate (b1) in an embedded mode, and the combined sheet (b11) is connected to the center of the main plate (b1) in a riveting mode.

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