CN213830366U - Disposable gauze mask production auxiliary device - Google Patents

Abstract

The utility model is suitable for a gauze mask apparatus for producing technical field provides a disposable gauze mask production auxiliary device, ultrasonic welding machine one is fixed in organism middle part upper end, welding head one is connected with ultrasonic welding machine one, ultrasonic welding machine two is fixed in the organism left end, three-dimensional visual sensor installation is fixed between ultrasonic welding machine one and ultrasonic welding machine two, welding head two is connected with ultrasonic welding machine two, long slide bar has three and installs in fixing base one, fixing base two and fixing base three from left to right in proper order, lower mount has two and parallel symmetry and installs and fix at organism left lower extreme, upper mount installation is fixed in organism left upper end, high slide bar installs on fixing base four and can the free rotation, short slide bar installs on two lower mounts and upper mount; the first cloth, the second cloth and the third cloth can be welded by the first ultrasonic welding machine after being automatically overlapped, so that the fabrics of different masks can be welded.

Description

Disposable gauze mask production auxiliary device

Technical Field

The utility model belongs to the technical field of the gauze mask apparatus for producing, especially, relate to a disposable gauze mask produces auxiliary device.

Background

Because of the influence of factors such as price, quality, effect of gauze mask surface fabric, more and more trade companies begin to choose different surface fabrics to use on same gauze mask with this substitution some unnecessary surface fabrics to the effective rate of utilization of every area of surface fabric is different for a gauze mask, consequently adopts different surface fabrics to replace other surface fabrics and can effectively resources are saved, reduce cost. Most mask production devices on the market cannot weld different mask fabrics.

SUMMERY OF THE UTILITY MODEL

The utility model provides a disposable gauze mask production auxiliary device aims at solving the unable welded problem that carries out to different gauze mask surface fabrics of gauze mask apparatus for producing.

The utility model is realized in such a way, a disposable mask production auxiliary device is characterized by comprising a machine body, a machine plate, a first ultrasonic welding machine, a first welding head, a three-dimensional visual sensor, a second ultrasonic welding machine, a second welding head, a fixed seat, a long slide bar, a first cloth, a second cloth, a third cloth, a lower fixed frame, an upper fixed frame, a high slide bar, a short slide bar, a first feeding channel and a second feeding channel, wherein the machine plate is vertically welded and fixed at the right end of the machine body, the first ultrasonic welding machine is fixed at the upper end of the middle part of the machine body, the first welding head is connected with the first ultrasonic welding machine, the second ultrasonic welding machine is fixed at the left end of the machine body, the three-dimensional visual sensor is installed and fixed between the first ultrasonic welding machine and the second ultrasonic welding machine, the second welding head is connected with the second ultrasonic welding machine, the fixed seat comprises the first fixed seat, the second fixed seat, the third fixed seat and the fourth fixed seat, the first fixing seat is installed on the upper surface of the left end of the machine body, the second fixing seat and the third fixing seat are installed at the left end and the right end of the first ultrasonic welding machine respectively, the fourth fixing seat is installed between the first ultrasonic welding machine and the machine plate, three long slide bars are installed on the first fixing seat, the second fixing seat and the third fixing seat in sequence from left to right, the lower fixing frame is provided with two parallel symmetrical fixing frames which are installed and fixed at the lower left end of the machine plate, the upper fixing frame is installed and fixed at the upper left end of the machine plate, the high slide bars are installed on the fourth fixing seat and can rotate freely, three short slide bars are installed on the two lower fixing frames and the upper fixing frame respectively, the first feeding channel and the second feeding channel are symmetrically arranged in the middle of the machine plate in parallel, the first cloth sequentially passes through the short slide bars on the fixing frame, the high slide bars on the fourth fixing seat and the three long slide bars, and the second cloth and the third cloth sequentially pass through the two short slide bars on the lower fixing frame, The cloth II and the cloth III are arranged on two sides of the cloth I, and the cloth I is always positioned at the upper ends of the cloth II and the cloth III.

Furthermore, the distance between three long slide bars and the upper surface of the machine body is just larger than the total thickness of the cloth I, the cloth II and the cloth after three-fold.

Furthermore, the long slide bar, the high slide bar and the short slide bar are made of stainless steel materials.

Furthermore, the outlets of the first feeding channel and the second feeding channel are slightly wider than the length of the short sliding rod.

Furthermore, the height of the high slide bar from the machine body is slightly larger than the total thickness of the cloth I, the cloth II and the cloth after the three-fold process.

Furthermore, when the first welding head and the second welding head are pressed down, the overlapped parts of the first cloth, the second cloth and the third cloth are just covered.

The utility model has the advantages that: the first cloth, the second cloth and the third cloth can be welded by the first ultrasonic welding machine after being automatically overlapped, so that the fabrics of different masks can be welded; the three long sliding rods are just longer than the total thickness of the cloth I, the cloth II and the cloth after triple overlapping, so that the long sliding rods can be effectively compressed and are beneficial to processing of a welding head I and a welding head II; the long slide bar, the high slide bar and the short slide bar are made of stainless steel materials, so that the production is prevented from being influenced by rusting; the outlets of the first feeding channel and the second feeding channel are slightly wider than the length of the short sliding rod, so that the raw materials are loaded conveniently; the height of the high slide rod from the machine body is slightly larger than the total thickness of the cloth I, the cloth II and the cloth III after triple overlapping, so that an overlapping buffer space is reserved, and the automatic overlapping of the cloth I, the cloth II and the cloth III is facilitated; because the first welding head and the second welding head just cover the overlapped parts of the first cloth, the second cloth and the third cloth when pressed down, the first cloth, the second cloth and the third cloth can be completely welded and connected.

Drawings

Fig. 1 is an assembly schematic diagram provided by the present invention.

Fig. 2 is a schematic view of a partial structure provided by the present invention.

Fig. 3 is a top view provided by the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It should be noted that the first ultrasonic welding machine 3, the first welding head 4, the three-dimensional vision sensor 5, the second ultrasonic welding machine 6, and the second welding head 7 are prior art, and are common general knowledge of those skilled in the art, and are not described herein again.

Referring to fig. 1, 2 and 3, the utility model provides a disposable mask production auxiliary device, which is characterized in that the device comprises a machine body 1, a machine plate 2, a first ultrasonic welding machine 3, a first welding head 4, a three-dimensional visual sensor 5, a second ultrasonic welding machine 6, a second welding head 7, a fixed seat 8, a long slide bar 9, a first cloth 10, a second cloth 11, a third cloth 12, a lower fixed frame 13, an upper fixed frame 14, a high slide bar 15, a short slide bar 16, a first feeding channel 17 and a second feeding channel 18, wherein the machine plate 2 is vertically welded and fixed at the right end of the machine body 1, the first ultrasonic welding machine 3 is fixed at the upper end of the middle part of the machine body 1, the first welding head 4 is connected with the first ultrasonic welding machine 3, the second ultrasonic welding machine 6 is fixed at the left end of the machine body 1, the three-dimensional visual sensor 5 is installed and fixed between the first ultrasonic welding machine 3 and the second ultrasonic welding machine 6, the second welding head 7 is connected with the second ultrasonic welding machine 6, the fixed seat 8 comprises a fixed seat I801, a fixed seat II 802, a fixed seat III 803 and a fixed seat IV 804, the fixed seat I801 is arranged on the upper surface of the left end of the machine body 1, the fixed seat II 802 and the fixed seat III 803 are respectively arranged on the left end and the right end of the ultrasonic welding machine I3, the fixed seat IV 804 is arranged between the ultrasonic welding machine I3 and the machine plate 2, three long slide bars 9 are arranged on the fixed seat I801, the fixed seat II 802 and the fixed seat III 803 from left to right in sequence, two lower fixed frames 13 are arranged and symmetrically arranged on the left lower end of the machine plate 2 in parallel, an upper fixed frame 14 is arranged and fixed on the left upper end of the machine plate 2, a high slide bar 15 is arranged on the fixed seat IV 804 and can freely rotate, three short slide bars 16 are arranged on the two lower fixed frames 13 and the upper fixed frame 14 respectively, a feeding channel I17 and a feeding channel II 18 are symmetrically arranged in parallel in the middle of the machine plate 2, the cloth I10 sequentially passes through the short slide bars 16 on the fixing frame 14, the high slide bars 15 on the fixing base IV 804 and the three long slide bars 9, the cloth II 11 and the cloth III 12 respectively pass through the feeding channel I17 and the feeding channel II 18 and then sequentially pass through the two short slide bars 16, the high slide bars 15 and the three long slide bars 9 on the lower fixing frame 13, the cloth II 11 and the cloth III 12 are arranged on two sides of the cloth I10, and the cloth I10 is always located at the upper ends of the cloth II 11 and the cloth III 12.

Three long slide bars 9 are arranged and the distance from the upper surface of the machine body 1 is just larger than the total thickness of the overlapped cloth I10, the cloth II 11 and the cloth III 12. Effectively compressing and facilitating the machining of the first 4 and second 7 bond heads.

The long slide bar 9, the high slide bar 15 and the short slide bar 16 are made of stainless steel materials. Avoid rusting to influence production.

The outlets of the first feeding channel 17 and the second feeding channel 18 are slightly wider than the length of the short slide bar 16. The raw material loading is facilitated.

The height of the high slide bar 15 from the machine body 1 is slightly larger than the total thickness of the overlapped cloth I10, the overlapped cloth II 11 and the overlapped cloth III 12. An overlapping buffer space is reserved, and automatic overlapping of the first cloth 10, the second cloth 11 and the third cloth 12 is facilitated.

When the first welding head 4 and the second welding head 7 are pressed down, the overlapped part of the first cloth 10, the second cloth 11 and the third cloth 12 is just covered. And completely welding and connecting the first cloth 10, the second cloth 11 and the third cloth 12.

The utility model discloses a theory of operation does: the cloth I10 sequentially passes through a short slide bar 16 on a fixed frame 14, a high slide bar 15 on a fixed seat IV 804 and three long slide bars 9, and the cloth II 11 and the cloth III 12 respectively pass through a feeding channel I17 and a feeding channel II 18 and then sequentially pass through two short slide bars 16, a high slide bar 15 and three long slide bars 9 on a lower fixed frame 13; when the first cloth 10, the second cloth 11 and the third cloth 12 pass through the high slide bar 15, the second cloth 11 and the third cloth 12 are placed at two sides of the first cloth 10, and the first cloth 10 is positioned at the upper ends of the second cloth 11 and the third cloth 12; and then the overlapped cloth I10, the overlapped cloth II 11 and the overlapped cloth III 12 are always kept in an overlapped state under the limitation of the three long slide rods 9 and are welded by the welding head I4 when passing through the ultrasonic welding machine I3, whether the welding surface is qualified is detected when passing through the three-dimensional vision sensor 5, and the welding defect can be solved by carrying out secondary welding by the welding head II 7 when passing through the ultrasonic welding machine II 6.

The utility model has the advantages that: the first cloth 10, the second cloth 11 and the third cloth 12 can be welded by the first ultrasonic welding machine 3 after being automatically overlapped, so that the fabrics of different masks can be welded; the three long slide bars 9 are just longer than the total thickness of the overlapped cloth I10, the cloth II 11 and the cloth III 12, and the distance from the upper surface of the machine body 1 is just longer than the total thickness of the overlapped cloth I11, the overlapped cloth II 11 and the overlapped cloth III 12, so that the long slide bars can be effectively compressed and are beneficial to processing of a welding head I4 and a welding head II 7; the long slide bar 9, the high slide bar 15 and the short slide bar 16 are made of stainless steel materials, so that the production is prevented from being influenced by rusting; the outlets of the first feeding channel 17 and the second feeding channel 18 are slightly wider than the length of the short slide bar 16, so that the raw materials are loaded conveniently; because the height of the high slide bar 15 from the machine body 1 is slightly larger than the total thickness of the overlapped cloth I10, the overlapped cloth II 11 and the overlapped cloth III 12, an overlapping buffer space is reserved, and the automatic overlapping of the cloth I10, the overlapped cloth II 11 and the overlapped cloth III 12 is facilitated; because the first welding head 4 and the second welding head 7 just cover the overlapped part of the first cloth 10, the second cloth 11 and the third cloth 12 when pressed down, the first cloth 10, the second cloth 11 and the third cloth 12 can be completely welded and connected.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. A disposable mask production auxiliary device is characterized by comprising a machine body (1), a machine plate (2), a first ultrasonic welding machine (3), a first welding head (4), a three-dimensional vision sensor (5), a second ultrasonic welding machine (6), a second welding head (7), a fixed seat (8), a long sliding rod (9), a first cloth (10), a second cloth (11), a third cloth (12), a lower fixed frame (13), an upper fixed frame (14), a high sliding rod (15), a short sliding rod (16), a first feeding channel (17) and a second feeding channel (18), wherein the machine plate (2) is vertically welded and fixed at the right end of the machine body (1), the first ultrasonic welding machine (3) is fixed at the upper end of the middle of the machine body (1), the first welding head (4) is connected with the first ultrasonic welding machine (3), the second ultrasonic welding machine (6) is fixed at the left end of the machine body (1), the three-dimensional vision sensor (5) is fixedly installed between the first ultrasonic welding machine (3) and the second ultrasonic welding machine (6), the second welding head (7) is connected with the second ultrasonic welding machine (6), the fixed seat (8) comprises a first fixed seat (801), a second fixed seat (802), a third fixed seat (803) and a fourth fixed seat (804), the first fixed seat (801) is installed on the upper surface of the left end of the machine body (1), the second fixed seat (802) and the third fixed seat (803) are respectively installed at the left end and the right end of the first ultrasonic welding machine (3), the fourth fixed seat (804) is installed between the first ultrasonic welding machine (3) and the machine plate (2), three long sliding rods (9) are sequentially installed on the first fixed seat (801), the second fixed seat (802) and the third fixed seat (803) from left to right, lower mount (13) have two and parallel symmetry installation to be fixed machine board (2) left side lower extreme, upper mount (14) installation is fixed machine board (2) left side upper end, high slide bar (15) are installed just free rotation on fixing base four (804), short slide bar (16) have three and install respectively two lower mount (13) and on upper mount (14), pan feeding passageway one (17) and pan feeding passageway two (18) parallel symmetry is established machine board (2) middle part, cloth one (10) passes through in proper order on mount (14) short slide bar (16) on fixing base four (804) high slide bar (15) and three long slide bar (9), cloth two (11) with cloth three (12) pass through respectively pan feeding passageway one (17) and pan feeding passageway two (18) back pass through in proper order down two on mount (13) down The short slide bars (16), the high slide bars (15) and the three long slide bars (9) are arranged on two sides of the cloth I (10), and the cloth I (10) is always positioned at the upper ends of the cloth II (11) and the cloth III (12).

2. The auxiliary device for producing the disposable mask according to claim 1, wherein the number of the long sliding rods (9) is three and the distance from the upper surface of the machine body (1) is just larger than the total thickness of the overlapped cloth I (10), the overlapped cloth II (11) and the overlapped cloth III (12).

3. The disposable mask production assisting device according to claim 1, wherein the long sliding bar (9), the high sliding bar (15) and the short sliding bar (16) are made of stainless steel.

4. The auxiliary device for producing the disposable mask according to claim 1, wherein the outlets of the first feeding channel (17) and the second feeding channel (18) are slightly wider than the length of the short slide bar (16).

5. The auxiliary device for producing disposable masks according to claim 1, characterized in that the height of the high slide bar (15) from the machine body (1) is slightly greater than the total thickness of the overlapped cloth (10), cloth (11) and cloth (12).

6. The auxiliary device for producing disposable masks according to claim 1, characterized in that the first welding head (4) and the second welding head (7) just cover the overlapped part of the first cloth (10), the second cloth (11) and the third cloth (12) when pressed down.

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