CN211590606U - Oil supply mechanism for rotary disc - Google Patents

Abstract

The utility model discloses a turntable oil supply mechanism, which comprises a turntable, wherein a plurality of stations are arranged on the turntable, a main shaft which is static relative to the turntable is arranged at the center of the turntable, and a main bearing frame is fixedly arranged on the main shaft; the oil outlet nozzle rotates along with the rotary disc. After adopting above-mentioned structure, compare with prior art, gyration dress oil jacket rotates along with the carousel for the oil supply pipeline who is connected with gyration dress oil jacket can be together along with the carousel rotation, prevents that oil supply pipeline and main shaft from twining. And the relative carousel of oil feed ring is static for the oil inlet pipeline can with main shaft fixed connection, does not rotate along with the carousel, thereby avoids oil inlet pipeline intertwine to tie a knot.

Description

Oil supply mechanism for rotary disc

Technical Field

The utility model relates to a brickmaking equipment field, concretely relates to be a carousel fuel feeding mechanism.

Background

The brick is an artificial small-sized block material commonly used by construction workers in daily life, the manufacturing process of the brick mainly comprises the step of carrying out press forming on stirred raw materials, the existing brick press mainly adopts a turntable conveying mould, oil needs to be supplied to equipment on a turntable in the brick manufacturing process, the oil supply pipeline in the prior art is complex in arrangement structure, and adjacent oil pipes are easy to intertwine and knot, so that production accidents are caused.

In view of the above, the applicant has made an intensive study to solve the above problems and has made the present invention.

Disclosure of Invention

A primary object of the utility model is to provide a carousel fuel feeding mechanism can make fuel feeding pipeline rotate along with the carousel and carry out the fuel feeding, prevents that fuel feeding pipeline intertwine from knoing.

In order to achieve the above purpose, the solution of the present invention is:

a rotary table oil supply mechanism comprises a rotary table, a rotary table is provided with a plurality of stations, a main shaft which is static relative to the rotary table is arranged in the center of the rotary table, and a main bearing frame is fixedly arranged on the main shaft; the oil outlet nozzle rotates along with the rotary disc.

Furthermore, the oil inlet nozzle is in a static state, the oil outlet nozzle is in a state of rotating along with the rotary disc, and the rotary oil filling sleeve rotates relative to the oil inlet nozzle or relative to the oil outlet nozzle.

Further, the rotary oil charging sleeve is fixedly connected with the rotary table; the rotary oil filling sleeve is provided with an oil containing cavity for containing oil; the oil containing cavity is provided with an oil inlet communicated with the oil inlet nozzle and an oil outlet communicated with the oil outlet nozzle.

Furthermore, the oil inlet nozzle comprises an oil inlet ring which is sleeved outside the rotary oil charging sleeve in a sliding manner, and an oil inlet hole communicated with the oil inlet is formed in the oil inlet ring.

Furthermore, the oil inlet ring is provided with an annular cavity communicated with the oil inlet and the oil inlet hole.

Furthermore, a plurality of oil inlets are formed in the rotary oil filling sleeve, and each oil inlet corresponds to the annular cavity.

Further, the oil inlet ring is provided with an upper limiting ring above the oil inlet ring and a lower limiting ring below the oil inlet ring.

Furthermore, the upper limiting ring, the oil inlet ring and the lower limiting ring are locked together through bolts penetrating from top to bottom.

Further, the upper limiting ring and the main bearing frame are locked together through bolts.

Further, the oil inlet ring is in sealing contact with both the upper limit ring and the lower limit ring.

Furthermore, an upper sealing groove which surrounds the rotary oil charging sleeve by a circle is formed on the inner side of the lower part of the upper limiting ring, and an upper sealing ring which is in sealing contact with the rotary oil charging sleeve and the oil inlet ring is arranged in the upper sealing groove; the inner side of the upper part of the lower limiting ring is provided with a lower sealing groove which surrounds the rotary oil charging sleeve for one circle, and a lower sealing ring which is in sealing contact with the rotary oil charging sleeve and the oil inlet ring is arranged in the lower sealing groove.

Furthermore, the rotary oil filling sleeve is connected with the main shaft in a sliding mode through the first shaft sleeve.

Further, the first shaft sleeve is sleeved in the rotary oil filling sleeve.

Furthermore, the first shaft sleeve is arranged at the upper part of the rotary oil charging sleeve, and a first shaft sleeve extension part extending to the upper end of the rotary oil charging sleeve is formed at the upper end of the first shaft sleeve.

Furthermore, a plurality of the oil outlet nozzles are arranged around the rotary oil charging sleeve.

Furthermore, the oil containing cavity is provided with a plurality of oil outlets which are in one-to-one correspondence with the oil outlets.

Furthermore, the number of the oil nozzles is equal to the number of the stations.

Furthermore, the oil containing cavity comprises a plurality of oil containing channels which are in one-to-one correspondence with the oil outlets, and the oil outlets are communicated with the lower ends of the oil containing channels.

Furthermore, the rotary oil charging sleeve comprises a plurality of oil inlets which are in one-to-one correspondence with the oil containing channels, and the oil inlets are communicated with the upper ends of the oil containing channels.

Furthermore, the upper end of the rotary oil filling sleeve is provided with a sealing plug for plugging the upper end of each oil containing channel.

Furthermore, the lower end of the rotary oil charging sleeve is provided with an extending connecting pin extending along the radial direction, and the extending connecting pin is connected with the rotary table through a bolt.

After adopting above-mentioned structure, this novel gyration dress oil jacket and oil feed ring of being equipped with, gyration dress oil jacket is connected with the carousel and rotates along with the carousel, the oil feed ring cover is established outside gyration dress oil jacket and is born with main and be connected, and the relative carousel of oil feed ring is static. The oil inlet ring is provided with an oil inlet nozzle, and when the rotary disc rotates, the oil inlet pipeline is communicated with the oil inlet nozzle. Oil flows into the annular cavity in the oil inlet ring from the oil inlet nozzle, the annular cavity is communicated with the oil inlet of the rotary oil charging sleeve, so that the oil can flow into each oil containing channel from each oil inlet, each oil containing channel is provided with a corresponding oil outlet and an oil outlet nozzle, and finally the oil flows out through the oil outlet and the oil outlet nozzle in sequence by the oil containing channels and is supplied to corresponding production equipment on the turntable. Compared with the prior art, the rotary oil charging sleeve is connected with the rotary table and rotates along with the rotary table, so that the oil supply pipeline connected with the rotary oil charging sleeve can rotate along with the rotary table, and the oil supply pipeline is prevented from being wound on the main shaft. And the relative carousel of oil feed ring is static for the oil inlet pipeline can with main shaft fixed connection, does not rotate along with the carousel, thereby avoids oil inlet pipeline intertwine to tie a knot.

Drawings

Fig. 1 is a perspective view of the external structure of the present invention.

Fig. 2 is a sectional perspective view of the present invention.

Fig. 3 is a side view of the cross-sectional structure of the novel oil supply mechanism.

Fig. 4 is a top view of the cross-sectional structure of the oil supply mechanism of the present invention.

In the figure:

a turntable-1; a main shaft-11; a main carrier-12; rotating and loading an oil sleeve-2; an oil outlet nozzle-21;

an oil accommodating cavity-22; an oil inlet-221; an oil outlet-222; an oil accommodating passage-223;

a sealing plug-23; an extension connecting leg-24; an oil inlet ring-3; oil inlet mouth-31; oil inlet-32;

an annular cavity-33; upper confinement ring-4; an upper seal ring-41; a lower confinement ring-5;

a lower seal ring-51; a first bushing-6; a first bushing extension-61.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following embodiments.

As shown in fig. 1-4, a turntable oil supply mechanism comprises a turntable 1, a main shaft 11 which is stationary relative to the turntable 1 is arranged at the center of the turntable 1, and a main bearing frame 12 is fixedly arranged on the main shaft 11, wherein the turntable oil supply mechanism comprises a rotary oil charging sleeve 2 which is sleeved on the main shaft 1, an oil inlet nozzle 31 which is connected with the rotary oil charging sleeve 2, and an oil outlet nozzle 21 which is connected with the rotary oil charging sleeve 2; the oil outlet nozzle 21 rotates along with the rotary disc 1.

After adopting above-mentioned structure, oil outlet nozzle 21 rotates along with the carousel for oil outlet pipeline can rotate along with the carousel together, prevents that oil outlet pipeline and carousel winding from knoing.

Preferably, the oil inlet 31 is in a static state, the oil outlet 21 is in a state of rotating along with the rotary table 1, the rotary oil charging sleeve 2 is relative to the oil inlet 31 or rotates relative to the oil outlet 21, and after the structure is adopted, the oil inlet 31 is connected with the oil inlet pipeline, so that the oil inlet pipeline is static relative to the rotary table and is prevented from being wound together.

Preferably, as an embodiment of the present invention, the rotary oil jacket 2 is fixedly connected with the rotary table 1; the rotary oil filling sleeve 2 is provided with an oil containing cavity 22 for containing oil; the oil accommodating cavity 22 is provided with an oil inlet 221 communicated with the oil inlet nozzle 31 and an oil outlet 222 communicated with the oil outlet nozzle 21, oil is fed from the oil inlet nozzle 31, sequentially flows through the oil inlet 221, the oil accommodating cavity 22 and the oil outlet 222, and finally flows out of the oil outlet nozzle 21 to be communicated to a corresponding station through an oil outlet pipeline.

Preferably, the oil inlet nozzle 31 includes an oil inlet ring 3 slidably sleeved outside the rotary oil charging sleeve 2, and the oil inlet ring 3 is formed with an oil inlet hole 32 communicated with the oil inlet 221.

Preferably, the oil inlet ring 3 is formed with an annular cavity 33 communicating with the oil inlet 221 and the oil inlet hole 32.

Preferably, the rotary oil casing 2 is formed with a plurality of the oil inlets 221, each of the oil inlets 221 corresponds to the annular cavity 33, and the annular cavity 33 supplies oil to each of the oil inlets 221.

Preferably, the oil inlet ring 3 is provided with an upper limit ring 4 located above the oil inlet ring 3 and a lower limit ring 5 located below the oil inlet ring 3, and the upper limit ring 4 and the lower limit ring 5 are fixed to the main carrier 12 and limit and fix the oil inlet ring 3.

Preferably, go up spacing ring 4, oil feed ring 3 and spacing ring 5 down through the bolt locking that runs through from top to bottom together, the dismouting is more convenient.

Preferably, the upper limiting ring 4 and the main bearing frame 12 are locked together by bolts, so that the oil inlet ring 3 is fixedly arranged on the main bearing frame 12 by the upper limiting ring 4 and the lower limiting ring 5, and the oil inlet nozzle 31 is fixedly arranged on the oil inlet ring 3, thereby avoiding the condition that the external oil pipe and the oil inlet nozzle 31 are knotted during the rotation of the turntable 1.

Preferably, the oil inlet ring 3 is in sealing contact with both the upper limit ring 4 and the lower limit ring 5, and oil leakage in the oil inlet ring 3 is prevented.

Preferably, an upper sealing groove surrounding the rotary oil charging sleeve 2 for one circle is formed on the inner side of the lower part of the upper limiting ring 4, and an upper sealing ring 41 in sealing contact with the rotary oil charging sleeve 2 and the oil inlet ring 3 is arranged in the upper sealing groove; the lower sealing ring 51 which is in sealing contact with the rotary oil charging sleeve 2 and the oil inlet ring 3 is arranged in the lower sealing groove.

Preferably, the rotary oil charging sleeve 2 is connected with the main shaft 2 in a sliding mode through a first shaft sleeve 6, and the first shaft sleeve 6 plays a role in guiding and rotating the rotary oil charging sleeve 2, so that the rotary oil charging sleeve 2 rotates more stably.

Preferably, the first shaft sleeve 6 is sleeved in the rotary oil charging sleeve 2.

Preferably, the first shaft sleeve 6 is located at the upper part of the rotary oil charging sleeve 2, a first shaft sleeve extension part 61 extending to the upper end of the rotary oil charging sleeve 2 is formed at the upper end of the first shaft sleeve 6, and the upper end of the rotary oil charging sleeve 2 and the lower end of the main bearing frame 12 support the first shaft sleeve extension part 61 in a propping manner.

Preferably, a plurality of the oil nozzles 21 are arranged around the rotary oil jacket 2.

Preferably, the oil accommodating chamber 22 has a plurality of the oil outlets 222 corresponding to the oil outlets 21 one by one.

Preferably, the number of the oil nozzles 21 is equal to the number of the stations, and each oil nozzle 21 corresponds to a station on a rotating disc.

Preferably, the oil accommodating chamber 22 includes a plurality of oil accommodating channels 223 corresponding to the oil outlets 222 one to one, and the oil outlets 222 are communicated with the lower ends of the oil accommodating channels 223.

Preferably, the rotary oil charging sleeve 2 includes a plurality of oil inlets 221 corresponding to the oil containing channels one to one, and the oil inlets 221 are communicated with the upper ends of the oil containing channels 223.

Preferably, a sealing plug 23 for sealing the upper end of each oil containing passage 223 is disposed at the upper end of the rotary oil jacket 2 to prevent the oil in the oil containing passage 223 from overflowing the oil containing passage 223.

Preferably, the lower end of the rotary oil charging sleeve 2 is provided with an extending connection pin 24 extending along the radial direction, and the extending connection pin 24 is connected with the rotary table 1 through a bolt, so that the rotary oil charging sleeve 2 is more firmly installed and more convenient to assemble and disassemble.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications made by those skilled in the art should not be construed as departing from the scope of the present invention.

Claims (21)

1. The utility model provides a carousel fuel feeding mechanism, includes the carousel and establishes on the carousel and the main frame that just is static relatively bears its characterized in that: the oil feeding device also comprises a rotary oil filling sleeve sleeved on the main shaft, an oil inlet nozzle connected with the rotary oil filling sleeve and an oil outlet nozzle connected with the rotary oil filling sleeve; the oil outlet nozzle rotates along with the rotary disc.

2. A turntable oil supply mechanism as claimed in claim 1, wherein: the oil inlet nozzle is in a static state, the oil outlet nozzle is in a state of rotating along with the rotary disc, and the rotary oil filling sleeve rotates relative to the oil inlet nozzle or relative to the oil outlet nozzle.

3. A turntable oil supply mechanism as claimed in claim 2, wherein: the rotary oil charging sleeve is fixedly connected with the rotary table; the rotary oil filling sleeve is provided with an oil containing cavity for containing oil; the oil containing cavity is provided with an oil inlet communicated with the oil inlet nozzle and an oil outlet communicated with the oil outlet nozzle.

4. A turntable oil supply mechanism as claimed in claim 3, wherein: the oil inlet nozzle comprises an oil inlet ring which is sleeved outside the rotary oil charging sleeve in a sliding mode, and an oil inlet hole communicated with the oil inlet is formed in the oil inlet ring.

5. The turntable oil supply mechanism as claimed in claim 4, wherein: and the oil inlet ring is provided with an annular cavity communicated with the oil inlet and the oil inlet hole.

6. The turntable oil supply mechanism as claimed in claim 5, wherein: the rotary oil filling sleeve is provided with a plurality of oil inlets, and each oil inlet corresponds to the annular cavity.

7. A turntable oil supply mechanism as claimed in claim 6, wherein: the oil inlet ring is provided with an upper limiting ring above the oil inlet ring and a lower limiting ring below the oil inlet ring.

8. A turntable oil supply mechanism as claimed in claim 7, wherein: the upper limiting ring, the oil inlet ring and the lower limiting ring are locked together through bolts penetrating up and down.

9. A turntable oil supply mechanism as claimed in claim 8, wherein: the upper limiting ring and the main bearing frame are locked together through bolts.

10. A turntable oil supply mechanism as claimed in claim 9, wherein: the oil inlet ring is in sealing contact with the upper limit ring and the lower limit ring.

11. A turntable oil supply mechanism as claimed in claim 10, wherein: an upper sealing groove which surrounds the rotary oil charging sleeve by a circle is formed on the inner side of the lower part of the upper limiting ring, and an upper sealing ring which is in sealing contact with the rotary oil charging sleeve and the oil inlet ring is arranged in the upper sealing groove; the inner side of the upper part of the lower limiting ring is provided with a lower sealing groove which surrounds the rotary oil charging sleeve for one circle, and a lower sealing ring which is in sealing contact with the rotary oil charging sleeve and the oil inlet ring is arranged in the lower sealing groove.

12. A turntable oil supply mechanism as claimed in claim 11, wherein: the rotary oil filling sleeve is connected with the main shaft in a sliding mode through the first shaft sleeve.

13. A turntable oil supply mechanism as claimed in claim 12, wherein: the first shaft sleeve is sleeved in the rotary oil charging sleeve.

14. A turntable oil supply mechanism as claimed in claim 13, wherein: the first shaft sleeve is positioned at the upper part of the rotary oil charging sleeve, and a first shaft sleeve extending part extending to the upper end of the rotary oil charging sleeve is formed at the upper end of the first shaft sleeve.

15. A turntable oil feed mechanism as claimed in claim 14, wherein: and the oil outlet nozzles are arranged around the rotary oil charging sleeve.

16. A turntable oil supply mechanism as claimed in claim 15, wherein: the oil containing cavity is provided with a plurality of oil outlets which are in one-to-one correspondence with the oil outlets.

17. A turntable oil feed mechanism as claimed in claim 16, wherein: the number of the oil nozzles is equal to the number of the stations.

18. A turntable oil supply mechanism as claimed in claim 17, wherein: the oil containing cavity comprises a plurality of oil containing channels which are in one-to-one correspondence with the oil outlets, and the oil outlets are communicated with the lower ends of the oil containing channels.

19. A turntable oil feed mechanism as claimed in claim 18, wherein: the rotary oil charging sleeve comprises a plurality of oil inlets which are in one-to-one correspondence with the oil containing channels, and the oil inlets are communicated with the upper ends of the oil containing channels.

20. A turntable oil feed mechanism as claimed in claim 19, wherein: and the upper end of the rotary oil filling sleeve is provided with a sealing plug for plugging the upper end of each oil containing channel.

21. A turntable oil supply mechanism as claimed in claim 20, wherein: and an extending connecting pin extending along the radial direction is formed at the lower end of the rotary oil charging sleeve, and the extending connecting pin is connected with the rotary table through a bolt.

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