阅读说明：本技术 一种自动加油印章集成装置 (Automatic oiling seal integrated device ) 是由 李金鑫 李刚 李丛昀 邓珊珊 黄锐卿 夏照云 王静娜 于 2021-09-27 设计创作，主要内容包括：本发明公开了一种自动加油印章集成装置,包括章体、印章和控制开关,章体内部设置有容置空间,包括第一外壳、章盖和挤压开关,印章包括第一通道、第一滑块、通气台、集油槽、第二通道,以及第二溶液空间,控制开关包括第二滑杆、限位壳、三角块、移动件、转动件、第二弹簧,以及第三弹簧。本发明所述装置设置控制开关、印章和挤压开关配合的方式,实现在印章使用时自动加油；并且章体可以集成多个印章,保存多个工作印章,方便日常使用。(The invention discloses an automatic oiling seal integration device which comprises a seal body, a seal and a control switch, wherein an accommodating space is arranged in the seal body and comprises a first shell, a seal cover and an extrusion switch, the seal comprises a first channel, a first sliding block, a ventilation platform, an oil collecting tank, a second channel and a second solution space, and the control switch comprises a second sliding rod, a limiting shell, a triangular block, a moving piece, a rotating piece, a second spring and a third spring. The device of the invention is provided with a mode of matching the control switch, the seal and the extrusion switch, so that automatic oiling is realized when the seal is used; and the stamp body can integrate a plurality of stamps, preserves a plurality of work stamps, makes things convenient for daily use.)

1. The utility model provides an automatic refuel seal integrated device which characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the stamping device comprises a stamp body (100), wherein an accommodating space (M) is arranged inside the stamp body, the stamp body comprises a first shell (101) and a stamp cover (102), a first solution space (102a) is arranged inside the stamp cover (102), an oil outlet (102b) is formed below the stamp cover, and an extrusion switch (103) is arranged at the oil outlet (102 b); and the number of the first and second groups,

seal (200), set up in accommodation space (M), it includes second shell (201), first passageway (202), first slider (203), platform (204) of ventilating, oil trap (205), second passageway (206), and second solution space (207), platform (204) of ventilating set up in second shell (201) top, first passageway (202) set up in inside second shell (201), with platform (204) intercommunication ventilates, first slider (203) set up in platform (204) is inside, and its upper end sets up to the hemisphere, oil trap (205) encircle set up in platform (204) outside ventilates, second passageway (206) are followed oil trap (205) and are let in second solution space (207).

2. The self-priming stamp integrated apparatus of claim 1, wherein: seal (200) still include stamp face (208), set up in second solution space (207) below, second shell (201) with triangle hole (201a) have been seted up to one side that first shell (101) contacted.

3. The self-priming stamp integrated apparatus according to claim 1 or 2, wherein: the ventilation table (204) is in a circular truncated cone shape, a limiting wall is arranged inside the ventilation table, and a limiting ring (203a) is arranged below the first sliding block (203).

4. The self-priming stamp integrated apparatus of claim 3, wherein: a seal handle (102c) is arranged above the seal cover (102), and an oil inlet (102d) is arranged above the first solution space (102 a).

5. An automatic oiling seal assembly according to any of claims 1, 2 and 4, wherein: the press switch (103) comprises a press switch,

the second sliding block (103a) is arranged in the oil outlet (102b), the lower end of the second sliding block is hemispherical, and a rubber ring is arranged outside the second sliding block;

the first sliding rod (103b) is arranged outside the oil outlet (102 b); and the number of the first and second groups,

and the first spring (103c) is arranged between the first sliding rods (103b) and is matched with the second sliding block (103 a).

6. The self-priming stamp integrated apparatus of claim 5, wherein: the device also comprises a control switch (300), a square groove (101a) is arranged on the outer side of the first shell (101), the control switch (300) is arranged in the square groove (101a) and comprises,

a third housing (301) provided outside the first housing (101);

a second slide bar (302) disposed inside the third housing (301);

the limiting shell (303) is arranged in the square groove (101a) and is fixedly connected with the second shell (201);

the triangular block (304) is arranged below the limiting shell (303) and matched with the triangular hole (201 a);

the moving piece (305) is arranged in the second sliding rod (302) and is fixedly connected with the limiting shell (303);

the rotating piece (306) is movably connected with the moving piece (305);

a second spring (307) disposed inside the second slide bar (302), between the third housing (301) and the moving member (305); and the number of the first and second groups,

and a third spring (308) which is arranged in the square groove (101a) and is connected with the triangular block (304).

7. The self-priming stamp integrated apparatus of claim 6, wherein: the outer side of the rotating piece (306) is provided with a curved sliding groove (306a), and one side of the second sliding rod (302) is provided with a limiting block (302a) matched with the curved sliding groove (306 a).

8. The self-priming stamp integrated apparatus according to claim 6 or 7, wherein: the outer side of the rotating piece (306) is provided with a fixed block (306b), and the inner wall of the third shell (301) is provided with a limiting piece (301a) matched with the fixed block (306 b).

9. The self-priming stamp integrated apparatus of claim 8, wherein: the stopper (301a) includes,

the transmission rod (301a-1) is arranged inside the limiting piece (301a) and is led out of the third shell (301); and the number of the first and second groups,

and a fourth spring (301a-2) disposed within the stopper (301 a).

10. The self-priming stamp integrated apparatus of claim 9, wherein: one side of the limiting piece (301a) is provided with a sliding groove, and one side of the transmission rod (301a-1) is provided with a fixed table (301a-11) matched with the fixed block (306 b).

Technical Field

The invention relates to the technical field of working seals, in particular to an automatic oiling seal integration device.

Background

The number of the seals used in the current transformer operation profession is more than 5, the adopted traditional seal selects a target seal from a plurality of seals when sealing each time, and sealing is carried out after inkpad is applied, so that the working seals are various and are not convenient to store; the taking is easy to be mistaken, and the risk of mistaken cover is existed; for a seal with lower use frequency, the condition that the seal can not be found when the seal is required to be used often occurs; the inkpad is exposed in the air for a long time, and the stamping effect is greatly reduced.

Disclosure of Invention

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. In this section, as well as in the abstract and the title of the invention of this application, simplifications or omissions may be made to avoid obscuring the purpose of the section, the abstract and the title, and such simplifications or omissions are not intended to limit the scope of the invention.

The present invention has been made in view of the above and/or other problems with the conventional self-priming stamp integrating apparatus.

Therefore, the problem to be solved by the invention is how to provide an automatic oiling seal integration device.

In order to solve the technical problems, the invention provides the following technical scheme: an automatic oiling seal integration device comprises a seal body, wherein an accommodating space is arranged inside the seal body, the seal body comprises a first shell and a seal cover, a first solution space is arranged inside the seal cover, an oil outlet is formed in the lower portion of the seal cover, and an extrusion switch is arranged at the oil outlet; and the number of the first and second groups,

the seal, set up in the accommodation space, it includes second shell, first passageway, first slider, platform, oil trap, second passageway ventilates to and second solution space, the platform that ventilates set up in second shell top, first passageway set up in inside the second shell, with the platform intercommunication of ventilating, first slider set up in inside the platform of ventilating, its upper end sets up to the hemisphere, the oil trap encircle set up in the platform outside of ventilating, the second passageway lets in from the oil trap in the second solution space.

As a preferred scheme of the automatic oiling seal integrated device, the automatic oiling seal integrated device comprises the following steps: the seal further comprises a seal face, the seal face is arranged below the second solution space, and a triangular hole is formed in one side, in contact with the first shell, of the second shell.

As a preferred scheme of the automatic oiling seal integrated device, the automatic oiling seal integrated device comprises the following steps: the ventilation table is in a round table shape, a limiting wall is arranged inside the ventilation table, and a limiting ring is arranged below the first sliding block.

As a preferred scheme of the automatic oiling seal integrated device, the automatic oiling seal integrated device comprises the following steps: a stamp handle is arranged above the stamp cover, and an oil inlet is arranged above the first solution space.

As a preferred scheme of the automatic oiling seal integrated device, the automatic oiling seal integrated device comprises the following steps: the extrusion switch comprises a second sliding block, the second sliding block is arranged in the oil outlet, the lower end of the second sliding block is hemispherical, and a rubber ring is arranged outside the second sliding block; the first sliding rod is arranged on the outer side of the oil outlet; and the first spring is arranged between the first sliding rods and matched with the second sliding block.

As a preferred scheme of the automatic oiling seal integrated device, the automatic oiling seal integrated device comprises the following steps: the control switch is arranged in the square groove and comprises a third shell arranged on the outer side of the first shell; the second sliding rod is arranged inside the third shell; the limiting shell is arranged inside the square groove and is fixedly connected with the second outer shell; the triangular block is arranged below the limiting shell and matched with the triangular hole; the moving piece is arranged in the second sliding rod and is fixedly connected with the limiting shell; the rotating piece is movably connected with the moving piece; the second spring is arranged inside the second sliding rod and between the third shell and the moving piece; and the third spring is arranged in the square groove and is connected with the triangular block.

As a preferred scheme of the automatic oiling seal integrated device, the automatic oiling seal integrated device comprises the following steps: the outer side of the rotating part is provided with a curved chute, and one side of the second sliding rod is provided with a limiting block matched with the curved chute.

As a preferred scheme of the automatic oiling seal integrated device, the automatic oiling seal integrated device comprises the following steps: the rotating piece outer side is provided with a fixed block, the third shell inner wall is provided with a limiting piece, and the limiting piece is matched with the fixed block.

As a preferred scheme of the automatic oiling seal integrated device, the automatic oiling seal integrated device comprises the following steps: the limiting piece comprises a transmission rod which is arranged inside the limiting piece and is led out of the third shell; and the fourth spring is arranged in the limiting part.

As a preferred scheme of the automatic oiling seal integrated device, the automatic oiling seal integrated device comprises the following steps: one side of the limiting part is provided with a sliding groove, and one side of the transmission rod is provided with a fixing table matched with the fixing block.

The invention has the beneficial effects that: storing a plurality of working seals into the seal body by using an integrated device, exposing the corresponding seals out of the seal body by using a control switch as required, and then stamping; the stamp face pattern is made of a permeable material, the stamp-pad ink can permeate the pattern and then stamp the pattern, and in the stamping process, the stamp is matched with the extrusion switch to automatically add oil to the stamp.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise. Wherein:

fig. 1 is a stamp structure diagram of the automatic oiling stamp integrating device in embodiments 1 and 3.

FIG. 2 is a cross-sectional view of a stamp of the automatic oiling stamp integrating device in embodiments 1 and 3.

Fig. 3 is a sectional view of a stamp body of the automatic oiling stamp integrating device in embodiments 1 and 3.

Fig. 4 is an enlarged view of a control switch of the automatic oiling seal integrating device in embodiment 2.

Fig. 5 is an enlarged view of another perspective of the control switch of the automatic oiling seal integrated device in embodiment 2.

Fig. 6 is another perspective view of a control switch of the automatic oiling seal integrated device in embodiment 2.

Fig. 7 is a structure diagram of a stopper of the automatic oiling stamp integrating device in embodiment 2.

Fig. 8 is a structural view of an automatic oiling stamp integrating device in embodiment 3.

Fig. 9 is another perspective view structural view of the automatic oiling seal integrated device in embodiment 3.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Furthermore, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one implementation of the invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1 to 3, a first embodiment of the present invention provides an automatic oiling seal integration apparatus, which includes a seal body 100 and a seal 200.

Specifically, the inside accommodation space M that is provided with of stamp body 100 for place stamp 200, stamp body 100 includes first shell 101 and stamp 102, and stamp 102 is inside to be provided with first solution space 102a, and oil-out 102b has been seted up to its below, and oil-out 102b department is provided with extrusion switch 103, and first solution space 102a is used for depositing stamp-pad ink to refuel stamp 200 from oil-out 102 b.

The stamp 200 is disposed in the accommodating space M, the stamp 200 includes a second housing 201, a first channel 202, a first slider 203, a venting table 204, an oil collecting groove 205, a second channel 206, and a second solution space 207, the venting table 204 is disposed above the second housing 201, the first channel 202 is disposed inside the second housing 201 and is communicated with the venting table 204, the first slider 203 is disposed inside the venting table 204, the upper end of the first slider is hemispherical, the oil collecting groove 205 is disposed around the outside of the venting table 204, the second channel 206 is vented into the second solution space 207 from the oil collecting groove 205, the stamp 200 forms a relatively sealed space with the stamp 102 in the accommodating space M, when the stamp 200 is used, gas in the sealed space is compressed, air pressure is increased, the gas enters the first channel 202 to press the first slider 203 to move the first slider, and stamp-pad ink flowing out from the oil outlet 102b flows into the oil collecting groove 205 along the outer wall of the first slider 203 and the venting table 204, the oil sump 205 collects the printing ink for a short time, and then the printing ink flows into the second solution space 207 through the second passage 206 to replenish the printing ink, and the compressed gas enters the second solution space 207 through the second passage 206 to press the printing ink in the second solution space 207 to remove floating foam therein.

When the stamp ink set is used, the stamp 200 is pressed to move into the accommodating space M, the stamp 200 and the stamp 102 form a relatively sealed space in the accommodating space M, the stamp 200 moves to compress gas in the sealed space, the gas pressure is increased, the compressed gas is extruded into the first channel 202, the gas pressure on the first slider 203 is increased, the first slider 203 moves outwards along the air channel 204, the first slider 203 extrudes the extrusion switch 103, the oil outlet 102b is opened, the stamp-pad ink flows out from the oil outlet 102b, the upper end of the first slider 203 is hemispherical, the outer wall of the air channel 204 is inclined, the stamp-pad ink can flow into the oil collecting groove 205 along the outer walls of the first slider 203 and the air channel 204, the oil collecting groove 205 collects the stamp-pad ink for a short time, the stamp-pad ink then flows into the second solution space 207 through the second channel 206 to supplement the stamp-pad ink, and the compressed gas enters the second solution space 207 through the second channel 206, the stamp-pad ink in the second solution space 207 is squeezed to remove the floating foam therein.

Example 2

Referring to fig. 4 to 7, a second embodiment of the present invention is based on the above embodiment.

Specifically, the stamp further comprises a control switch 300, a square groove 101a is formed in the outer side of the first casing 101, the control switch 300 is arranged in the square groove 101a, the control switch 300 can be connected with the stamp 200 on the outer side of the stamp body 100 through the square groove 101a, the control switch 300 comprises a third casing 301, a second sliding rod 302, a limiting shell 303, a triangular block 304, a moving part 305, a rotating part 306, a second spring 307 and a third spring 308, and the third casing 301 is arranged on the outer side of the first casing 101; the second slide bar 302 is disposed inside the third housing 301; the limiting shell 303 is arranged inside the square groove 101a and is fixedly connected with the second shell; the triangular block 304 is arranged below the limiting shell 303 and matched with the triangular hole 201 a; the moving element 305 is arranged in the second sliding rod 302 and is fixedly connected with the limiting shell 303, and the moving element 305 moves along the second sliding rod 302; the rotating member 306 is movably connected with the moving member 305; the second spring 307 is arranged inside the second sliding rod 302, between the third shell 301 and the moving part 305; the third spring 308 is disposed in the square groove 101a and connected to the triangular block 304. When the moving member 305 is located above the inside of the second sliding rod 302, the second spring 307 is in a compressed state, the elastic force generated by the compression of the second spring 307 enables the moving member 305 to move, the moving member 305 drives the limiting shell 303 to move in the same direction, the limiting shell 303 extrudes the triangular block 304, the triangular block 304 moves along the sliding groove in the square groove 101a, the third spring 308 is compressed, the third spring is far away from the triangular hole 201a on the outer side of the stamp 200, the obstruction to the stamp 200 is lost, the stamp 200 moves out of the accommodating space M, and the stamp 200 moves.

Further, a curved sliding groove 306a is arranged on the outer side of the rotating member 306, a limiting block 302a is arranged on one side of the second sliding rod 302 and is matched with the curved sliding groove 306a, when the rotating member 306 moves, the limiting block 302a is fixed, the rotating member 306 moves, and one end of the limiting block 302a is arranged in the curved sliding groove 306a, so that the curved sliding groove 306a rotates along the limiting block 302a, and the rotating member 306 rotates.

Further, a fixed block 306b is disposed outside the rotating member 306, a limiting member 301a is disposed on the inner wall of the third housing 301, the limiting member 301a includes a driving rod 301a-1 and a fourth spring 301a-2, the driving rod 301a-1 is disposed inside the limiting member 301a and extends out of the third housing 301, the fourth spring 301a-2 is disposed inside the limiting member 301a, a sliding slot is disposed on one side of the limiting member 301a, a fixed platform 301a-11 is disposed on one side of the driving rod 301a-1 and is engaged with the fixed block 306b, when the fixed block 306b is above the fixed platform 301a-11, the driving rod 301a-1 is pressed to compress the fourth spring 301a-2, the fixed platform 301a-11 is far away from the fixed block 306b, the fixed platform 301a-11 is out of obstruction, because the second spring 307 is in a compressed state, the rotating member 306 has no position limitation, the elastic force of the second spring 307 moves the rotating member 306 because the limiting block 302a limits the rotating member 306, the rotating member 306 rotates, the fixed block 306b rotates along with the rotating member 306, the driving rod 301a-1 loses the external force, and the elastic force of the fourth spring 301a-2 can push the driving rod 301a-1 back to the initial position.

When the device is used, the transmission rod 301a-1 is pressed by the outside, the transmission rod 301a-1 presses the fourth spring 301a-2, the transmission rod 301a-1 moves, so that the fixed table 301a-11 is far away from the fixed block 306b, the fixed table 301a-11 loses obstruction, because the second spring 307 is in a compressed state, the rotating member 306 has no position limitation, the elastic force of the second spring 307 is released, the moving member 305 moves due to the elastic force, the rotating member 306 moves, because the limiting block 302a is fixed and the rotating member 306 moves, one end of the limiting block 302a is in the curved chute 306a, so that the curved chute 306a rotates along the limiting block 302a, the rotating member 306 rotates, the fixed table 301a-11 deviates from the original position, the transmission rod 301a-1 loses the external acting force, and the elastic force of the fourth spring 301a-2 can push the transmission rod 301a-1 back to the original position, meanwhile, the moving piece 305 drives the limiting shell 303 to move in the same direction, the limiting shell 303 extrudes the triangular block 304, the triangular block 304 moves along a sliding groove in the square groove 101a, the third spring 308 is compressed, the triangular hole 201a is far away from the outer side of the stamp 200, the obstruction to the stamp 200 is lost, the stamp 200 moves towards the outside of the accommodating space M, the stamp 200 moves, when stamping is carried out, the stamp 200 is extruded to be flush with the lower part of the first shell 101, the triangular block 304 extrudes the stamp 200 by the elastic force of the third spring 308, the stamp 200 continues to move upwards, the fixing block 306b is clamped on the fixing table 301a-11, the stamp 200 stops moving, the stamp 200 is completely retracted into the accommodating space M, and the influence on the use of other stamps 200 is avoided.

Example 3

Referring to fig. 1 to 3, 8 and 9, a third embodiment of the present invention is based on the first two embodiments.

Specifically, seal 200 includes seal face 208, and seal face 208 sets up in second solution space 207 below, and triangular hole 201a has been seted up to one side that second shell 201 and first shell 101 contact, and permeable material is adopted to the pattern part of seal face 208's chapter, and triangular hole 201a cooperates with triangle piece 304, and triangle piece 304 gets into triangular hole 201a block, restriction seal 200's position.

Furthermore, the ventilation table 204 is in a circular truncated cone shape, a limiting wall is arranged inside the ventilation table, a limiting ring 203a is arranged below the first sliding block 203, and the outer wall of the ventilation table 204 is inclined, so that oil can be better guided.

Further, a stamp handle 102c is arranged above the stamp cap 102, the upper end of the stamp handle 102c is provided with an ellipsoid shape, so that the comfort in use is improved, an oil inlet 102d is arranged above the first solution space 102a, and stamp-pad ink is replenished into the first solution space 102a from the oil inlet 102 d.

Further, the stamp cover 102 further comprises an extrusion switch 103, which comprises a second slider 103a, a first slide rod 103b, and a first spring 103c, wherein the second slider 103a is arranged in the oil outlet 102b, the lower end of the second slider is hemispherical, a rubber ring is arranged outside the second slider 103a, and when the second slider 103a is not jacked up, the rubber ring is used for sealing the oil outlet 102b to prevent the first solution space 102a from leaking oil when not in use; the first sliding rod 103b is arranged outside the oil outlet 102b, and the second sliding block 103a moves in the first sliding rod 103 b; the first spring 103c is disposed between the first sliding bars 103b, and is engaged with the second sliding block 103a, when the second sliding block 103a is jacked up, the first spring 103c is pressed, and when the second sliding block 103a is not jacked up, the elastic force of the first spring 103c resets the second sliding block 103a, and the oil outlet 102b is sealed.

When the ink-jet printer is used, the outside presses the transmission rod 301a-1, the control switch 300 performs linkage reaction, so that the stamp 200 moves towards the outside of the accommodating space M, the stamp surface 208 is exposed, the ellipsoidal shape at the upper end of the stamp handle 102c is held for stamping, the stamp 200 is pressed, the stamp 200 moves towards the inside of the accommodating space M, the stamp 200 and the stamp cover 102 form a relatively sealed space in the accommodating space M, the stamp 200 moves to compress gas in the sealed space, the gas pressure is increased, the compressed gas is extruded into the first channel 202, the pressure of the gas on the first slider 203 is increased, so that the first slider 203 moves outwards along the air-through table 204, the first slider 203 extrudes the second slider 103a, so that the second slider is jacked upwards, the oil outlet 102b is opened, the ink in the first solution space 102a flows out from the oil outlet 102b, and flows into the oil collection groove 205 along the outer walls of the first slider 203 and the air-through table 204, the oil collecting groove 205 collects the printing ink for a short time, then the printing ink flows into the second solution space 207 through the second channel 206 to replenish the printing ink, meanwhile, the compressed gas enters the second solution space 207 through the second channel 206 to extrude the printing ink in the second solution space 207, floating foam in the second solution space is removed, when the pressure in the accommodating space M is recovered to be consistent with the outside, the first sliding block 203 is recovered to the original position in the ventilating table 204, the second sliding block 103a is not propped by the first sliding block 203, the elastic force of the first spring 103c enables the second sliding block 103a to be recovered to seal the oil outlet 102b, the printing ink is replenished automatically when the stamp 200 is used, and when the stamp 200 is not used, the oil outlet 102b is sealed by the second sliding block 103 a.

It should be noted that the above-mentioned embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the claims of the present invention.