CN117249403B - Embedded lighting lamp for office - Google Patents

Abstract

The invention discloses an office embedded type illuminating lamp, and relates to the field of embedded type installation lamps. The invention provides an office embedded type illuminating lamp capable of being installed in different apertures, which comprises a fixed shell, wherein an adjusting button is rotatably connected to the fixed shell, an illuminating light source is installed on the fixed shell, guide grooves which are distributed in a central symmetry mode are formed in the top of the adjusting button, a first sliding block is connected in the guide grooves in a sliding mode, and a first rubber pad is arranged on the first sliding block. According to the invention, the first sliding block is opened by rotating the adjusting button, so that holes with different sizes can be adapted, and an operator is not required to accurately match the sizes of the holes to customize the lamp; the second rotating block and the rubber plate are driven to move out through the rotation of the adjusting button, the illumination light source is fixed on the side wall of the hole through the second rotating block and the rubber plate, and therefore embedded installation of the illumination light source can be achieved.

Description

Embedded lighting lamp for office

Technical Field

The invention relates to the field of embedded mounting lamps, in particular to an office embedded illuminating lamp.

Background

In office decoration or cabinet installation, the lamp installation is an important part, because the installation steps of the lamp are relatively back, installation holes are reserved in advance on a wall body or a cabinet body, the lamp installation is carried out after the integral decoration or cabinet body installation is basically finished, and the lamp is required to be additionally installed in the follow-up process, so that the lamp installation is required to be carried out after punching according to the purchased lamp size, namely the existing lamp installation is generally divided into two cases, the lamp installation is purchased according to the size of the hole after the pre-punching, or the lamp installation is carried out after the lamp is purchased according to the size of the lamp after the hole is purchased, the former is suitable for a cabinet body or a wall body which is provided with a hole groove, the cabinet body or the wall body which is provided with the hole groove cannot find the lamp with the matched size, and for non-professional people to purchase the lamp, due to the fact that the concept is not strong in the aspect of the specific installation size, the lamp can be required to be purchased for many times, even a plurality of times, the special size is required to be customized or the inner diameter of the hole groove is modified, and the procedure is relatively complicated.

Therefore, there is a need to design an embedded illumination lamp for office use that can be adapted to different aperture installation, so as to solve the above-mentioned problems in the prior art.

Disclosure of Invention

The invention provides an office embedded illuminating lamp which can be installed in different apertures, so as to solve the problems in the background technology.

The technical scheme of the invention is as follows: the utility model provides an embedded light is used in office, includes the fixed shell, the fixed shell rotates and is connected with the adjusting knob, the recess that the equidistance was distributed has been seted up to the adjusting knob, illumination light source is installed to the fixed shell, illumination light source is located in the adjusting knob, the adjusting knob with the through-hole that is used for with illumination light source connecting line has all been seted up at the fixed shell middle part, the guide way that is central symmetry and distributes has been seted up at the adjusting knob top, sliding connection has first sliding block in the guide way, first sliding block with fixed shell sliding connection, first sliding block is provided with first rubber pad, first sliding block is provided with the expansion subassembly that is used for adapting to great bore hole.

In a preferred embodiment of the present invention, the expansion assembly includes a second rotating block rotatably connected to the first sliding block, the second rotating block is provided with a rubber plate, and the fixing housing is provided with a fixing groove for moving out the second rotating block.

In a preferred embodiment of the present invention, the present invention further includes a locking assembly for locking the adjusting knob, the locking assembly is disposed on the adjusting knob, the locking assembly includes a fixed tooth, the fixed tooth is fixedly mounted on the fixed shell, the adjusting knob is rotatably connected with a first rotating block, the adjusting knob is slidably connected with a latch matched with the fixed tooth, the latch is slidably connected with the first rotating block, and a first extension spring is connected between the latch and the adjusting knob.

In a preferred embodiment of the invention, the invention further comprises a sucker assembly for enhancing stability, the sucker assembly is arranged on the fixed shell, the sucker assembly comprises a guide block, the guide block is arranged in the adjusting button, one side of the adjusting button, which is close to the guide block, is fixedly connected with the fixed block, the fixed shell is connected with the sucker in a sliding manner, the bottom of the sucker is connected with a sliding sleeve in a sliding manner, the sliding sleeve is positioned between the adjacent fixed block and the guide block, one side, which is close to the adjacent sliding sleeve, of the guide block is an inclined plane, and one side, which is close to the sliding sleeve, of the sucker is provided with an air vent.

In a preferred embodiment of the invention, the damping between the suction cup and the sliding sleeve is smaller than the damping between the suction cup and the stationary housing.

In a preferred embodiment of the present invention, a side of the fixed block, which is adjacent to the sliding sleeve, is an inclined surface, and the fixed block is in press fit with the sliding sleeve.

In a preferred embodiment of the present invention, the present invention further includes a reinforcing component for reinforcing and fixing, the reinforcing component is disposed on the first sliding block, the reinforcing component includes a sliding tube, the sliding tube is slidably connected to the first sliding block, the sliding tube is slidably connected to a sliding rod, a second expansion spring is connected between the sliding tube and the sliding rod, the first sliding block is rotatably connected to a rotating rod, and the rotating rod is slidably connected to the sliding tube.

In a preferred embodiment of the present invention, a side of the rotating rod away from the sliding tube is located on the same vertical plane as the adjacent first rubber pad, and a side of the sliding rod away from the sliding tube is located on the same vertical plane as the adjacent first rubber pad.

In a preferred embodiment of the present invention, the present invention further includes an extension member adapted to the deeper hole, the extension member is disposed on the first sliding block, the extension member includes a second sliding block, the second sliding block is slidably connected to the first sliding block, the second sliding block is connected to a second rubber pad, and the first sliding block is rotatably connected to a fixing button for fixing the second sliding block.

In a preferred embodiment of the present invention, a side of the first rubber pad away from the first sliding block and a side of the second rubber pad away from the second sliding block are both groove surfaces.

Compared with the prior art, the invention has the following advantages: 1. according to the invention, the first sliding block is opened by rotating the adjusting button, so that holes with different sizes can be adapted, and an operator is not required to accurately match the sizes of the holes to customize the lamp; the second rotating block and the rubber plate are driven to move out through the rotation of the adjusting button, and the second rotating block and the rubber plate are clamped on the side wall of the hole to fix the illumination light source, so that the embedded installation of the illumination light source can be realized;

2. the clamping teeth are clamped through the fixed teeth, so that the installation stability of the illumination light source is ensured, and the illumination light source is prevented from loosening due to the reverse rotation of the adjusting button;

3. the guide block is driven to rotate through the rotation of the adjusting button to extrude the sliding sleeve to move upwards, so that the sliding sleeve moves upwards to cover the air holes, the guide block can continue to extrude the sliding sleeve to move upwards, the sucker is driven to move upwards, the sucker is extruded to be tightly attached to a wall, and the stability of the illumination light source is enhanced;

4. the sliding rod is propped against the inner wall of the hole through the reset acting force of the second telescopic spring, the fixation of the illumination light source is enhanced through the mode of enhancing friction force, and the installation hole of part of the wall is T-shaped, namely after the sliding rod passes through the vertical hole, the second telescopic spring can reset to drive the sliding rod to move outwards for reset, so that the sliding rod is clamped in the vertical hole connected with the upper part of the vertical hole, the installation stability of the illumination light source can be effectively ensured, and the illumination light source cannot fall off after being reasonably installed;

5. the second sliding block drives the fixed button to move upwards, so that the heights of the first sliding block and the first rubber pad are prolonged, deeper holes can be adapted, the wall body of the illumination light source area is prevented from falling off after long-term use, and the integral installation effect is influenced.

Drawings

Fig. 1 is a perspective view of a first perspective view of the present invention.

Fig. 2 is a schematic perspective view of a second perspective view of the present invention.

Fig. 3 is a schematic cross-sectional perspective view of the present invention.

Fig. 4 is a schematic perspective view of the fixing case and the adjusting knob of the present invention.

Fig. 5 is an exploded perspective view of the fixing case, the adjusting knob and the guide groove of the present invention.

Fig. 6 is a schematic perspective view of a first portion of the expansion assembly of the present invention.

Fig. 7 is a schematic view of a second partial perspective view of the expansion assembly of the present invention.

Fig. 8 is a schematic perspective view of a first portion of the locking assembly of the present invention.

Fig. 9 is a schematic perspective view of a second portion of the locking assembly of the present invention.

Figure 10 is a schematic perspective view of a first portion of a chuck assembly according to the present invention.

Figure 11 is a schematic perspective view of a second portion of a chuck assembly according to the present invention.

Fig. 12 is a schematic perspective view of a first portion of the reinforcement assembly of the present invention.

Fig. 13 is a schematic perspective view of a second portion of the reinforcement assembly of the present invention.

Fig. 14 is a schematic perspective view of a first portion of an elongate member of the present invention.

Fig. 15 is a schematic perspective view of a second portion of an elongate member of the present invention.

Wherein the above figures include the following reference numerals: 101. the device comprises a fixed shell, 102, an adjusting button, 1021, an illumination light source, 103, a groove, 104, a guide groove, 105, a first sliding block, 106, a first rubber pad, 201, a fixed tooth, 202, a first sliding block, 203, a latch, 204, a first telescopic spring, 301, a guide block, 302, a fixed block, 303, a sucking disc, 304, a sliding sleeve, 305, a ventilation hole, 401, a sliding tube, 402, a sliding rod, 403, a second telescopic spring, 404, a rotating rod, 501, a second sliding block, 502, a rubber plate, 503, a fixed groove, 601, a second sliding block, 602, a second rubber pad, 603 and a fixed button.

Detailed Description

It should be noted that in the various embodiments described, identical components are provided with identical reference numerals or identical component names, wherein the disclosure contained throughout the description can be transferred in a meaning to identical components having identical reference numerals or identical component names. The position specification, the upper, lower, lateral, etc. selected in the description are also referred to directly in the description and the figures shown and are transferred in the sense of a new position when the position is changed.

Example 1: referring to fig. 1-5, an embedded illumination lamp for offices is shown, which comprises a fixed shell 101, the fixed shell 101 is rotationally connected with an adjusting knob 102, the adjusting knob 102 is provided with a groove 103 distributed at equal intervals, when embedded installation is performed, the adjusting knob 102 is inserted into the groove 103 through an elongated tool, the fixed shell 101 is provided with an illumination light source 1021, the illumination light source 1021 is positioned in the adjusting knob 102, the adjusting knob 102 and the middle part of the fixed shell 101 are respectively provided with a through hole for connecting a circuit with the illumination light source 1021, the connecting circuit is connected with the illumination light source 1021 through the through holes, the top of the adjusting knob 102 is provided with a guide groove 104 distributed in a central symmetry manner, a first sliding block 105 is connected in a sliding manner in the guide groove 104, the first sliding block 105 is in sliding connection with the fixed shell 101, the outer side of the first sliding block 105 is provided with a first rubber pad 106, and the first sliding block 105 is provided with an expansion assembly for adapting to a large caliber hole.

Referring to fig. 6-7, the expansion assembly includes a second rotating block 501, the second rotating block 501 is rotatably connected to the outer side of the first sliding block 105, a rubber plate 502 is disposed on a side of the second rotating block 501 away from a connection point with the first sliding block 105, and a fixing groove 503 for moving out the second rotating block 501 is formed in the fixing case 101.

When the lighting lamp needs to be installed on the wall, the wall is generally provided with a hole which is perforated in advance, and the installation mode is generally divided into two modes, wherein one mode is to expose the lighting source 1021 outside the wall and install the lighting source 1021 in the hole through embedding the first sliding block 105, and the other mode is to embed the lighting source 1021 in the hole of the wall.

When the installation mode that the illumination light source 1021 is exposed out of the wall is needed, an operator inserts the first sliding block 105 into a hole to be installed, then presses the illumination light source 1021, rotates the adjusting button 102, so that the adjusting button 102 rotates to drive the guide groove 104 to rotate, and drives the first sliding block 105 to open outwards, the first sliding block 105 drives the first rubber pad 106 to move outwards, and accordingly the illumination lamp is clamped in the hole to be fixed, and the adjusting button 102 rotates to enable the first sliding block 105 to open to adapt to holes with different sizes, so that the installation mode can adapt to holes with most sizes without the need of the operator to accurately match the sizes of the holes to customize the lamp.

When the illumination source 1021 is required to be embedded into a hole of a wall in such a mounting manner, an operator firstly rotates the second rotating block 501, so that the second rotating block 501 drives the rubber plate 502 to rotate out of the first sliding block 105, then the operator rotates the adjusting button 102, so that the adjusting button 102 and the illumination source 1021 rotate relatively, the second rotating block 501 and the rubber plate 502 are rotated into the fixing groove 503, the rubber plate 502 is flush with the edge of the fixing shell 101, the fixing shell 101 and the illumination source 1021 are clamped into the hole, the operator manually fixes the illumination source 1021, then the elongated tool is clamped into the groove 103, the adjusting button 102 is driven to rotate by the elongated tool, the adjusting button 102 continuously drives the second rotating block 501 and the rubber plate 502 to move out, and the second rotating block 501 and the rubber plate 502 are clamped on the side wall of the hole to fix the illumination source 1021, so that the illumination source 1021 is embedded into the hole.

Example 2: on the basis of embodiment 1, referring to fig. 8-9, the device further comprises a locking component for locking the adjusting knob 102, the locking component is arranged on the adjusting knob 102 and comprises a fixed tooth 201, the fixed tooth 201 is fixedly installed on the fixed shell 101, a first rotating block 202 is rotatably connected with the adjusting knob 102, a cavity is formed between the first rotating block 202 and the adjusting knob 102 when the first rotating block 202 is kept in a vertical state, the cavity is convenient for the first rotating block 202 to rotate, the adjusting knob 102 is slidably connected with a latch 203 matched with the fixed tooth 201, a first expansion spring 204 is connected between the latch 203 and the adjusting knob 102, and the latch 203 is slidably connected with the first rotating block 202.

In order to ensure the stability of the installation of the illumination light source 1021, the illumination light source 1021 is prevented from loosening and falling, after the installation of the illumination light source 1021 is completed, the latch 203 is blocked by the fixing teeth 201, the illumination light source 1021 is prevented from loosening due to the reverse rotation of the adjusting knob 102, when the adjusting knob 102 rotates, the first rotating block 202 and the latch 203 are driven to rotate, the latch 203 is contacted with the fixing teeth 201 and is pressed by the fixing teeth 201 to move outwards, so that the first telescopic spring 204 is compressed, and after the latch 203 is disengaged from the fixing teeth 201, the latch 203 is driven to move inwards to reset by the reset, and thus, the stability of the illumination light source 1021 is ensured by the fixing teeth 201 blocking the latch 203; if the illumination source 1021 needs to be maintained, the first rotating block 202 may be pressed, so that the lower side of the first rotating block 202 moves inwards, the upper side of the first rotating block 202 moves outwards, so as to drive the latch 203 to move outwards, the first expansion spring 204 is compressed, the latch 203 is not clamped on the fixed tooth 201 any more, and at this time, an operator can invert the adjusting knob 102, and then take down the illumination source 1021.

Referring to fig. 10-11, the fixing device further comprises a suction cup assembly for enhancing stability, the suction cup assembly is arranged on the fixing shell 101, the suction cup assembly comprises a guide block 301, the guide block 301 is arranged in the adjusting button 102, a fixing block 302 is fixedly connected to one side, close to the guide block 301, of the adjusting button 102, the fixing shell 101 is slidably connected with a suction cup 303, the bottom of the suction cup 303 is slidably connected with a sliding sleeve 304, damping between the suction cup 303 and the sliding sleeve 304 is smaller than damping between the suction cup 303 and the fixing shell 101, the sliding sleeve 304 is located between the adjacent fixing block 302 and the guide block 301, one side, close to the adjacent sliding sleeve 304, of the guide block 301 is an inclined surface, one side, close to the adjacent sliding sleeve 304, of the fixing block 302 is an inclined surface, the sliding sleeve 304 is in an extrusion fit with the fixing block 302, and one side, close to the sliding sleeve 304, of the suction cup is provided with an air vent 305.

When the adjusting knob 102 rotates, the guiding block 301 is driven to rotate, the guiding block 301 rotates to be in contact with the sliding sleeve 304 and presses the sliding sleeve 304 to move upwards, the sliding sleeve 304 moves upwards and covers the air holes 305, and the guiding block 301 continues to press the sliding sleeve 304 to move upwards, so that the sucking disc 303 is driven to move upwards, the sucking disc 303 is pressed to be tightly attached to a wall, and the stability of the illumination light source 1021 is enhanced; when the illumination source 1021 needs to be maintained, the adjusting knob 102 is reversely rotated to drive the guide block 301 to reversely rotate, so that the guide block 301 does not press the sliding sleeve 304 any more, and the adjusting knob 102 is driven to rotationally press the fixed block 302 to press the sliding sleeve 304, so that the sliding sleeve 304 moves downwards, the ventilation holes 305 are not blocked any more, and the suction disc 303 is ventilated and the wall is loosened.

Example 3: on the basis of embodiment 2, referring to fig. 12-13, the reinforcing component is further included for reinforcing and fixing, the reinforcing component is disposed on the first sliding block 105, the reinforcing component includes a sliding tube 401, the sliding tube 401 is L-shaped, a rectangular groove is formed in the lower side of the sliding tube 401, the sliding tube 401 is slidably connected to the first sliding block 105, a sliding rod 402 is slidably connected to the sliding tube 401, a second extension spring 403 is connected between the sliding tube 401 and the sliding rod 402, the first sliding block 105 is rotatably connected with a rotating rod 404, the rotating rod 404 is slidably connected with the rectangular groove of the sliding tube 401, a side, away from the sliding tube 401, of the rotating rod 404 is located on the same vertical plane with an adjacent first rubber pad 106, and a side, away from the sliding tube 401, of the rotating rod 402 is located on the same vertical plane with an adjacent first rubber pad 106.

When the illumination light source 1021 is exposed out of the wall, the first sliding block 105 is embedded into the hole for installation, the first sliding block 105 is moved outwards to drive the first rubber pad 106 to move outwards, the first rubber pad 106 is extruded to be deformed partially, the first sliding block 105 is driven to move outwards to be contacted with the inner wall of the hole, the first sliding block 105 can be further moved outwards for a certain distance, at the moment, the first rubber pad 106 is extruded, the lower side of the rotating rod 404 is enabled to be extruded by the sliding rod 402, the first sliding block 105 is further moved outwards to drive the sliding tube 401 to move outwards, the sliding rod 402 and the sliding tube 401 are relatively slid, the second telescopic spring 403 is compressed, the sliding tube 401 is rotated to drive the rotating rod 404 to rotate, the reset force of the second telescopic spring 403 is enabled to enable the sliding rod 402 to be abutted against the inner wall of the hole, the illumination light source is further strengthened by the mode of strengthening friction force, and the sliding rod 402 is enabled to move outwards, namely, the sliding rod 402 is enabled to move outwards in the direction of the sliding rod 402 to be mounted on the wall, and the sliding rod 402 is enabled to move outwards, namely, the sliding rod 402 is enabled to move upwards and the sliding rod is prevented from falling down, and the sliding rod is mounted on the wall is enabled to move upwards.

Referring to fig. 14-15, the device further includes an extension component adapted to the deeper hole, the extension component is disposed on the first sliding block 105, the extension component includes a second sliding block 601, the second sliding block 601 is slidably connected to the first sliding block 105, the second sliding block 601 is connected to a second rubber pad 602, the first sliding block 105 is rotatably connected to a fixing button 603 used for fixing the second sliding block 601, and a side, far away from the first sliding block 105, of the first rubber pad 106 and a side, far away from the second rubber pad 602, of the second sliding block 601 are both groove surfaces.

Because there are deeper holes, if the fixing portion of the embedded installation is shallower, the whole gravity of the illumination source 1021 is only born by the partial area of the hole, and the wall body of the area of the illumination source 1021 may be detached and the whole installation effect may be affected when the illumination source 1021 is used for a long time, so when the installed hole is deeper, an operator may rotate the fixing button 603 and then move the second sliding block 601 upwards, so that the second sliding block 601 drives the fixing button to move upwards, thereby prolonging the heights of the first sliding block 105 and the first rubber pad 106, then the operator inverts the fixing button 603, so that the fixing button 603 fixes the second sliding block 601, and then the illumination source 1021 can be installed, so that the installation effect can be ensured by adapting to the deeper hole.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present invention, and although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present invention.

Claims (8)

1. The embedded type illuminating lamp for office use is characterized by comprising a fixed shell (101), wherein the fixed shell (101) is rotationally connected with an adjusting button (102), the adjusting button (102) is provided with equidistant distributed grooves (103),

during embedded installation, an adjusting button (102) is inserted into a groove (103) through an elongated tool, an illumination light source (1021) is installed on a fixed shell (101), the illumination light source (1021) is located in the adjusting button (102), through holes for connecting lines with the illumination light source (1021) are formed in the middle of the adjusting button (102) and the middle of the fixed shell (101), guide grooves (104) which are distributed symmetrically in the center are formed in the top of the adjusting button (102), a first sliding block (105) is connected in a sliding mode in the guide grooves (104), the first sliding block (105) is connected with the fixed shell (101) in a sliding mode, a first rubber pad (106) is arranged on the first sliding block (105), and expansion components for adapting to holes with different diameters are arranged on the first sliding block (105);

the expansion assembly comprises a second rotating block (501), the second rotating block (501) is rotationally connected with the first sliding block (105), the second rotating block (501) is provided with a rubber plate (502), and the fixed shell (101) is provided with a fixed groove (503) for moving out the second rotating block (501);

still including being used for right locking assembly of adjusting knob (102), locking assembly set up in adjusting knob (102), locking assembly is including fixed tooth (201), fixed tooth (201) fixed mounting in fixed shell (101), adjusting knob (102) rotate and are connected with first rotating block (202), adjusting knob (102) sliding connection have with fixed tooth (201) complex latch (203), latch (203) with first rotating block (202) sliding connection, latch (203) with be connected with first expansion spring (204) between adjusting knob (102).

2. The embedded illumination lamp for offices of claim 1, further comprising a sucker assembly for enhancing stability, wherein the sucker assembly is arranged on the fixed shell (101), the sucker assembly comprises a guide block (301), the guide block (301) is arranged in the adjusting button (102), a fixed block (302) is fixedly connected to one side of the adjusting button (102) close to the guide block (301), the fixed shell (101) is slidably connected with the sucker (303), a sliding sleeve (304) is slidably connected to the bottom of the sucker (303), the sliding sleeve (304) is arranged between the adjacent fixed block (302) and the guide block (301), an inclined surface is arranged on one side of the guide block (301) close to the adjacent sliding sleeve (304), and an air vent (305) is formed on one side of the sucker (303) close to the sliding sleeve (304).

3. An office built-in light according to claim 2, characterized in that the damping between the suction cup (303) and the sliding sleeve (304) is smaller than the damping between the suction cup (303) and the stationary housing (101).

4. An office recessed light as claimed in claim 3, wherein the side of the fixed block (302) adjacent to the sliding sleeve (304) is inclined, and the fixed block (302) is in press fit with the sliding sleeve (304).

5. The office embedded lighting lamp as claimed in claim 4, further comprising a reinforcing component for reinforcing and fixing, wherein the reinforcing component is arranged on the first sliding block (105), the reinforcing component comprises a sliding tube (401), the sliding tube (401) is slidably connected with the first sliding block (105), the sliding tube (401) is slidably connected with a sliding rod (402), a second telescopic spring (403) is connected between the sliding tube (401) and the sliding rod (402), the first sliding block (105) is rotatably connected with a rotating rod (404), and the rotating rod (404) is slidably connected with the sliding tube (401).

6. The office recessed lighting lamp according to claim 5, wherein a side of the rotating rod (404) away from the sliding tube (401) is located on the same vertical plane as the adjacent first rubber pad (106), and a side of the sliding rod (402) away from the sliding tube (401) is located on the same vertical plane as the adjacent first rubber pad (106).

7. The office embedded lighting lamp as claimed in claim 6, further comprising an extension component adapted to the deeper hole, wherein the extension component is disposed on the first sliding block (105), the extension component comprises a second sliding block (601), the second sliding block (601) is slidably connected to the first sliding block (105), the second sliding block (601) is connected to a second rubber pad (602), and the first sliding block (105) is rotatably connected to a fixing button (603) for fixing the second sliding block (601).

8. The office recessed lighting lamp according to claim 7, wherein a side of the first rubber pad (106) away from the first sliding block (105) and a side of the second rubber pad (602) away from the second sliding block (601) are both groove surfaces.