CN212495413U - Glove box mechanism for 3D printer - Google Patents

Abstract

The utility model discloses a glove box mechanism that 3D printer was used, include: a top plate, a bottom plate, a front side plate, a rear side plate, a left side plate and a right side plate which form a sealed cavity; a sealing door, one end of which is rotatably arranged in one side surface of the front side plate; the sealing door is provided with a first protruding portion which is recessed towards the direction of keeping away from the rear side plate, a first through hole, a second through hole and a third through hole are formed in the first protruding portion respectively, a first sealing glove is arranged in the first through hole, a second sealing glove is arranged in the second through hole, and transparent glass is arranged in the third through hole. In this way, the utility model discloses a glove box mechanism that 3D printer was used makes when needs clear up the sealed chamber in the 3D printer, need not to open the sealing door of 3D printer, directly clears up the inside in sealed chamber through artifical manual utilization sealed gloves for external environment can not pollute sealed chamber, with the printing quality of guaranteeing the product, has promoted user's experience greatly.

Description

Glove box mechanism for 3D printer

Technical Field

The utility model relates to a 3D printer technical field, in particular to glove box mechanism that 3D printer was used.

Background

With the development of 3D printing technology, the 3D printer can directly manufacture metal parts with metallurgical bonding, compact structure, good size precision and mechanical property, has wide application prospect, and becomes a research hotspot in the field of current additive manufacturing. The 3D printer has the advantages of personalized design, rapid molding and short manufacturing period, and is very suitable for manufacturing metal parts with small batch, personalization, complex surfaces and internal structures.

Under the general condition, need untimely sealed chamber in to the 3D printer clear up, however, among the traditional mode, all be the inside clearance that need open the sealing door of 3D printer in order to carry out sealed chamber, this makes the sealed chamber of external environmental pollution easily, seriously influences the printing quality of product.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem of main solution provides a glove box mechanism that 3D printer was used, when needs cleared up the sealed chamber in the 3D printer, need not to open the sealing door of 3D printer, directly clears up the inside in sealed chamber through artifical manual sealed gloves of utilizing for external environment can not pollute sealed chamber, with the printing quality of guaranteeing the product, has promoted user's experience greatly.

In order to solve the technical problem, the utility model discloses a technical scheme be: the utility model provides a glove box mechanism that 3D printer was used which characterized in that includes: the air outlet box is arranged at one end, close to the front side plate, of the bottom plate, an air inlet is formed at one end, facing the air outlet, of the air outlet box, and an opening is formed in the front side plate; one end of the sealing door is rotatably arranged in one side face of the front side plate far away from the rear side plate; the sealing door is provided with a first protruding part which faces away from the rear side plate and is sunken in the direction and corresponds to the opening, a first through hole, a second through hole and a third through hole are formed in the first protruding part respectively, first sealing gloves are arranged in the first through hole, second sealing gloves are arranged in the second through hole, and transparent glass is arranged in the third through hole.

Further, the first through hole and the second through hole are respectively arranged on two sides of the first protruding portion, and the third through hole is arranged between the first through hole and the second through hole.

Further, the first through hole and the second through hole are circular, and the third through hole is rectangular.

Furthermore, a first sealing ring is arranged in the first through hole, a second sealing ring is arranged in the second through hole, and a third sealing ring is arranged in the third through hole.

Further, the method also comprises the following steps: and the protective cover corresponds to the shape of the sealing door and is arranged outside the sealing door, wherein the protective cover is provided with a second protruding part corresponding to the first protruding part.

Furthermore, the second protruding portion is provided with a fourth through hole corresponding to the first through hole, a fifth through hole corresponding to the second through hole, and a sixth through hole corresponding to the third through hole.

Furthermore, the aperture of the fourth through hole is slightly smaller than that of the first through hole, the aperture of the fifth through hole is slightly smaller than that of the second through hole, and the aperture of the sixth through hole is slightly smaller than that of the third through hole.

Furthermore, a plurality of accommodating holes are formed in the edge of the outer side face of the sealing door at intervals, and a plurality of inserting columns inserted into the accommodating holes are formed in the edge of the inner side face of the protective cover at intervals.

Furthermore, be equipped with in the play wind box with the ventilation cavity of air intake intercommunication, the left side board and/or the right side board be equipped with the air inlet through-hole of ventilation cavity intercommunication.

Furthermore, the air outlet box is rectangular, wherein the length of the air outlet box is equal to the distance between the left side plate and the right side plate.

The utility model has the advantages that: be different from prior art's condition, the utility model discloses a glove box mechanism that 3D printer was used includes: the air outlet box is arranged at one end of the bottom plate close to the front side plate, the air outlet box is arranged at one end of the air outlet box facing the air outlet, and an opening is formed in the front side plate; one end of the sealing door is rotatably arranged in one side surface of the front side plate far away from the rear side plate; the sealing door is provided with a first protruding portion which is recessed towards the direction far away from the rear side plate and corresponds to the opening, the first protruding portion is internally provided with a first through hole, a second through hole and a third through hole, a first sealing glove is arranged in the first through hole, a second sealing glove is arranged in the second through hole, and transparent glass is arranged in the third through hole. In this way, the utility model discloses a glove box mechanism that 3D printer was used makes when needs clear up the sealed chamber in the 3D printer, need not to open the sealing door of 3D printer, directly clears up the inside in sealed chamber through artifical manual utilization sealed gloves for external environment can not pollute sealed chamber, with the printing quality of guaranteeing the product, has promoted user's experience greatly.

Drawings

Fig. 1 is a schematic structural view of a glove box mechanism for a 3D printer according to the present invention;

FIG. 2 is a schematic view of a first partial configuration of a glove box mechanism for the 3D printer of FIG. 1;

FIG. 3 is a second partial schematic configuration of the glove box mechanism for the 3D printer of FIG. 1;

FIG. 4 is a schematic structural view of a sealing door of a glove box mechanism for the 3D printer of FIG. 1;

fig. 5 is a schematic structural diagram of a protective cover of the glove box mechanism for the 3D printer in fig. 1.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and embodiments.

As shown in fig. 1 to 5, the glove box mechanism for a 3D printer includes a first galvanometer 11, a second galvanometer 12, a top plate 13, a bottom plate 14, a front side plate 15, a rear side plate 16, a left side plate 17, a right side plate 18, and a sealing door 19.

In the present embodiment, the top plate 13, the bottom plate 14, the front side plate 15, the rear side plate 16, the left side plate 17, and the right side plate 18 form a sealed chamber. It should be understood that this example is by 3D printing within a sealed chamber.

In this embodiment, an air outlet 161 communicating with the sealed cavity is disposed in the rear side plate 16, and an air outlet box 141 is disposed at an end of the bottom plate 14 close to the front side plate 15, wherein an air inlet is disposed at an end of the air outlet box 141 facing the air outlet 161.

In this embodiment, a ventilation cavity communicated with the air inlet is disposed in the air outlet box 141, wherein the left side plate 17 and/or the right side plate 18 are/is provided with an air inlet through hole communicated with the ventilation cavity, so that air can be conveyed to the ventilation cavity of the air outlet box 141 through the air inlet through hole.

Preferably, the outlet box 141 is rectangular, wherein the length of the outlet box 141 is equal to the distance between the left side plate 17 and the right side plate 18.

In the present embodiment, a first galvanometer 11 and a second galvanometer 12 are spaced apart from each other in the top plate 13, so that the printing powder in the sealed cavity is printed by the first galvanometer 11 and the second galvanometer 12. It should be understood that, by providing two galvanometers, the present embodiment can effectively reduce the processing time in the case of printing in the same range as compared with a single galvanometer.

Preferably, an opening 151 is provided in the front side plate 15.

One end of the sealing door 19 is rotatably provided in a side of the front side plate 15 remote from the rear side plate 16. It should be understood that the sealing door 19 of the present embodiment may be pivotally disposed in a side of the front panel 15 by conventional means (e.g., hinge, screw, or other means).

In this embodiment, the sealing door 19 is provided with a first protrusion 190 recessed towards a direction away from the rear side plate 16 and corresponding to the opening 151, wherein the first protrusion 190 is provided with a first through hole 191, a second through hole 192 and a third through hole 193, respectively, a first sealing glove is provided in the first through hole 191, a second sealing glove is provided in the second through hole 192, and a transparent glass is provided in the third through hole 193. It should be understood that this embodiment is through setting up sealed gloves in sealing door 19 for when needs clear up the sealed chamber in the 3D printer, need not to open the sealing door of 3D printer, directly establish in sealed gloves through the staff cover in order to clear up the inside in sealed chamber through sealed gloves, make external environment can not pollute sealed chamber, with the printing quality of guaranteeing the product, promoted user's experience greatly.

It should be understood that the ends of the first and second sealing gloves (i.e., the ends that do not receive the fingers) may be disposed in the through holes by means of adhesive, and the first and second sealing gloves may be implemented by using commercially available rubber gloves or other sealing gloves.

Preferably, the first and second through holes 191 and 192 are respectively disposed at both sides of the first protrusion 190, and the third through hole 193 is disposed between the first and second through holes 191 and 192.

Preferably, the first and second through holes 191 and 192 are circular, and the third through hole 193 is rectangular.

In the present embodiment, the first seal 194 is provided in the first through hole 191, the second seal 195 is provided in the second through hole 192, and the third seal 196 is provided in the third through hole 193. Preferably, the first and second sealing rings 194 and 195 have a circular shape, and the third sealing ring 196 has a rectangular shape.

It should be understood that the first sealing ring 194 of the present embodiment may be fixed to the outer wall of the first through hole 191 by means of an adhesive or a screw, and the end of the first sealing glove is disposed between the first sealing ring 194 and the outer wall of the first through hole 191; the second sealing ring 195 may be fixed to the outer wall of the second through hole 192 by an adhesive means or a screw means, and the end of the second sealing glove is disposed between the second sealing ring 195 and the outer wall of the second through hole 192; the third sealing ring 196 may be fixed to an outer wall of the third through hole 193 by an adhesive means or a screw means, and an end of the third sealing glove is disposed between the third sealing ring 196 and the outer wall of the third through hole 193.

Further, the glove box mechanism for the 3D printer further includes a protective cover 20, wherein the protective cover 20 corresponds to the shape of the sealing door 19, and the protective cover 20 is disposed outside the sealing door 19 to protect the sealing door 19 through the protective cover 20.

In the present embodiment, the protective cover 20 is provided with a second protrusion 201 corresponding to the first protrusion 190.

Preferably, the second protrusion 201 is provided with a fourth through hole 202 corresponding to the first through hole 191, a fifth through hole 203 corresponding to the second through hole 192, and a sixth through hole 204 corresponding to the third through hole 193.

Preferably, the aperture of the fourth through hole 202 is slightly smaller than that of the first through hole 191, the aperture of the fifth through hole 203 is slightly smaller than that of the second through hole 192, and the aperture of the sixth through hole 204 is slightly smaller than that of the third through hole 193, so that the sealing ring can be tightly pressed.

In this embodiment, a plurality of receiving holes 197 are formed at intervals on the outer side edge of the sealing door 19, and a plurality of insertion posts 205 inserted into the plurality of receiving holes 197 are formed at intervals on the inner side edge of the protective cover 20, so that the protective cover 20 can be disposed outside the sealing door 19.

It is understood that in other embodiments, one of the outer side of the sealing door 19 facing the protective cover 20 and the inner side of the protective cover 20 facing the sealing door 19 is provided with a first magnet, and the other of the outer side of the sealing door 19 facing the protective cover 20 and the inner side of the protective cover 20 facing the sealing door 19 is provided with a second magnet for attracting the first magnet.

Further, in this embodiment, a baffle 206 is disposed at an edge of an inner side surface of the protective cover 20, wherein the baffle 206 and the inner side surface of the protective cover 20 form a receiving cavity, and the sealing door 19 is received in the receiving cavity.

To sum up, the utility model discloses a glove box mechanism that 3D printer was used includes: the air outlet box is arranged at one end of the bottom plate close to the front side plate, the air outlet box is arranged at one end of the air outlet box facing the air outlet, and an opening is formed in the front side plate; one end of the sealing door is rotatably arranged in one side surface of the front side plate far away from the rear side plate; the sealing door is provided with a first protruding portion which is recessed towards the direction far away from the rear side plate and corresponds to the opening, the first protruding portion is internally provided with a first through hole, a second through hole and a third through hole, a first sealing glove is arranged in the first through hole, a second sealing glove is arranged in the second through hole, and transparent glass is arranged in the third through hole. In this way, the utility model discloses a glove box mechanism that 3D printer was used makes when needs clear up the sealed chamber in the 3D printer, need not to open the sealing door of 3D printer, directly clears up the inside in sealed chamber through artifical manual utilization sealed gloves for external environment can not pollute sealed chamber, with the printing quality of guaranteeing the product, has promoted user's experience greatly.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. The utility model provides a glove box mechanism that 3D printer was used which characterized in that includes:

the air outlet box is arranged at one end, close to the front side plate, of the bottom plate, an air inlet is formed at one end, facing the air outlet, of the air outlet box, and an opening is formed in the front side plate;

one end of the sealing door is rotatably arranged in one side face of the front side plate far away from the rear side plate;

the sealing door is provided with a first protruding part which faces away from the rear side plate and is sunken in the direction and corresponds to the opening, a first through hole, a second through hole and a third through hole are formed in the first protruding part respectively, a first sealing glove is arranged in the first through hole, a second sealing glove is arranged in the second through hole, and transparent glass is arranged in the third through hole.

2. The glove box mechanism as claimed in claim 1, wherein the first through-hole and the second through-hole are respectively provided on both sides of the first protrusion, and the third through-hole is provided between the first through-hole and the second through-hole.

3. The glove box apparatus as in claim 2, wherein the first and second through holes are circular and the third through hole is rectangular.

4. The glove box mechanism as in claim 3, wherein a first seal is disposed in the first throughbore, a second seal is disposed in the second throughbore, and a third seal is disposed in the third throughbore.

5. The glove box apparatus as in claim 1, further comprising:

and the protective cover corresponds to the shape of the sealing door and is arranged outside the sealing door, wherein the protective cover is provided with a second protruding part corresponding to the first protruding part.

6. The glove box mechanism as claimed in claim 5, wherein the second projection is provided with a fourth through hole corresponding to the first through hole, a fifth through hole corresponding to the second through hole and a sixth through hole corresponding to the third through hole.

7. The glove box mechanism as in claim 6, wherein the fourth port has an aperture slightly smaller than the first port, the fifth port has an aperture slightly smaller than the second port, and the sixth port has an aperture slightly smaller than the third port.

8. The glove box mechanism as claimed in claim 7, wherein a plurality of receiving holes are provided at intervals on an outer side edge of the sealing door, and a plurality of insertion posts are provided at intervals on an inner side edge of the protective cover to be inserted into the plurality of receiving holes.

9. The glove box mechanism as claimed in claim 1, wherein a ventilation cavity communicating with the air inlet is provided in the air outlet box, and the left side plate and/or the right side plate is provided with an air inlet through hole communicating with the ventilation cavity.

10. The glove box mechanism as in claim 9, wherein the outlet box is rectangular in shape, wherein the outlet box has a length equal to the distance between the left side panel and the right side panel.

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