阅读说明：本技术 一种围巾生产用自定量加料型染料设备 (Scarf production is with from quantitative charging type dyestuff equipment ) 是由 宋延敏 于 2020-11-10 设计创作，主要内容包括：本发明公开了一种围巾生产用自定量加料型染料设备,包括箱体,所述箱体内底部嵌设有加热板,所述箱体内壁开设有滑塞腔,所述滑塞腔内壁密封滑动连接有磁性滑塞,所述磁性滑塞上端通过伸缩弹簧与滑塞腔内顶部弹性连接,所述滑塞腔内壁下方连接有单向吸料管,所述滑塞腔内壁下方通过单向出料管与箱体内壁连接,所述箱体位于滑塞腔的上方开设有圆形腔,所述圆形腔内壁对称固定连接两个固定板,所述圆形腔内壁密封滑动连接有圆盘。本发明通过在加热腔和冷却腔的作用下使得圆盘不断转动,进而永磁块不断掠过磁性滑塞,进而磁性滑塞在滑塞腔内壁上下往复滑动,进而将外界的染料等量的挤压至箱体内,无需人工操作,确保了围巾的染色质量。(The invention discloses self-metering feeding type dye equipment for scarf production, which comprises a box body, wherein a heating plate is embedded in the bottom of the box body, a sliding plug cavity is formed in the inner wall of the box body, a magnetic sliding plug is connected to the inner wall of the sliding plug cavity in a sealing and sliding manner, the upper end of the magnetic sliding plug is elastically connected with the top of the inner part of the sliding plug cavity through a telescopic spring, a one-way material sucking pipe is connected to the lower part of the inner wall of the sliding plug cavity, the lower part of the inner wall of the sliding plug cavity is connected with the inner wall of the box body through a one-way material discharging pipe, the box body is positioned above the sliding plug cavity and is provided with a circular cavity, the inner wall. According to the scarf drying machine, the disc is enabled to rotate continuously under the action of the heating cavity and the cooling cavity, the permanent magnets continuously graze the magnetic sliding plug, the magnetic sliding plug slides up and down in a reciprocating mode on the inner wall of the sliding plug cavity, external dyes are extruded into the box body in an equivalent mode, manual operation is not needed, and the scarf drying quality is guaranteed.)

1. The utility model provides a scarf production is with from quantitative charging type dyestuff equipment, includes box (1), bottom inlays in box (1) and is equipped with hot plate (2), its characterized in that, sliding plug chamber (3) have been seted up to box (1) inner wall, sliding plug chamber (3) inner wall sealing sliding connection has magnetism sliding plug (4), top elastic connection in magnetism sliding plug (4) upper end and sliding plug chamber (3) through expanding spring (5), sliding plug chamber (3) inner wall below is connected with one-way material pipe (6) of inhaling, sliding plug chamber (3) inner wall below is through one-way discharging pipe (7) and box (1) inner wall connection, box (1) are located the top in sliding plug chamber (3) and have been seted up circular chamber (8), two fixed plate (9) of circular chamber (8) inner wall symmetry fixed connection, circular chamber (8) inner wall sealing sliding connection has disc (10), the disc (10) is connected with the side walls of the two fixing plates (9) in a sealing and sliding mode, permanent magnets (11) attracted with the magnetic sliding plugs (4) are embedded at the lower ends of the disc (10), an annular cavity (13) is formed in the disc (10), and a driving mechanism for driving the disc (10) to rotate is installed in the annular cavity (13).

2. The self-metering dye-feeding device for scarf production is characterized in that, the driving mechanism comprises a plurality of rubber balls (14) which are slidably connected to the inner wall of the annular cavity (13), a balancing weight (15) is fixedly connected to the inner wall of the plurality of rubber balls (14), and the side wall of the balancing weight (15) is elastically connected with the inner wall of the rubber balls (14) through a plurality of memory springs (16).

3. The scarf production is with from measurement feeding type dyestuff equipment of claim 1, characterized in that, two said fixed plate (9) upper ends, between disc (10) lateral wall and circular chamber (8) inner wall constitute heating chamber (81), heating chamber (81) inner wall passes through heat-conducting plate (12) and box (1) inner wall connection, two said fixed plate (9) lower extreme, between disc (10) lateral wall and circular chamber (8) inner wall constitute cooling chamber (82), be equipped with the coolant liquid in cooling chamber (82).

4. The scarf production is with from volume feeding type dyestuff equipment of claim 1, characterized in that, the bottom in box (1) has through reset spring (17) elastic connection magnetic plate (18), disc (10) lateral wall fixedly connected with pivot (19), pivot (19) lateral wall symmetry fixedly connected with two magnets (20), two magnets (20) magnetism is opposite.

Technical Field

The invention relates to the technical field of scarf production, in particular to self-metering feeding type dye equipment for scarf production.

Background

The scarf is in the shape of a long strip, a triangle, a square and the like which is wrapped around a neck, the fabric is made of wool, cotton, silk, modal, rayon, acrylic fiber, terylene and the like generally, and with the improvement of the aesthetics of people, the scarf needs to be dyed with different colors during production.

At present, the scarf is dyed in a dyeing box with good heating, but along with the prolonging of the scarf dyeing time, the dye concentration in the dyeing box can be gradually reduced, so that the scarf is dyed unevenly, the appearance of the scarf is influenced, the dye is added into the dyeing box regularly through manual work at present, the labor intensity of workers is high, manual feeding amount is inconsistent, the dyeing quality of the scarf is influenced, in addition, the scarf is dyed in the dyeing box, heating is continuously performed, the heat is not utilized during production, and energy waste is caused.

Based on this, the invention provides a self-metering feeding type dye device for scarf production.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a self-metering dye feeding device for scarf production.

In order to achieve the purpose, the invention adopts the following technical scheme:

a self-metering feeding type dye device for scarf production comprises a box body, wherein a heating plate is embedded at the bottom in the box body, the inner wall of the box body is provided with a sliding plug cavity, the inner wall of the sliding plug cavity is connected with a magnetic sliding plug in a sealing and sliding way, the upper end of the magnetic sliding plug is elastically connected with the top in the sliding plug cavity through a telescopic spring, a one-way material suction pipe is connected below the inner wall of the sliding plug cavity, the lower part of the inner wall of the sliding plug cavity is connected with the inner wall of the box body through a one-way discharge pipe, the box body is provided with a circular cavity above the sliding plug cavity, the inner wall of the circular cavity is symmetrically and fixedly connected with two fixed plates, the inner wall of the circular cavity is connected with a disc in a sealing and sliding way, the disc is connected with the side walls of the two fixed plates in a sealing and sliding way, permanent magnets attracted with the magnetic sliding plugs are embedded at the lower end of the disc, an annular cavity is formed in the disc, and a driving mechanism for driving the disc to rotate is installed in the annular cavity.

Preferably, actuating mechanism includes a plurality of rubber balls of sliding connection at annular intracavity wall, and is a plurality of rubber ball inner wall fixedly connected with balancing weight, the balancing weight lateral wall is through a plurality of memory spring and rubber ball inner wall elastic connection.

Preferably, two constitute the heating chamber between fixed plate upper end, disc lateral wall and the circular intracavity wall, heating intracavity wall passes through the heat-conducting plate and is connected with the box inner wall, two constitute the cooling chamber between fixed plate lower extreme, disc lateral wall and the circular intracavity wall, be equipped with the coolant liquid in the cooling chamber.

Preferably, the bottom has the magnetic plate through reset spring elastic connection in the box, disc lateral wall fixedly connected with pivot, two magnet of pivot lateral wall symmetry fixedly connected with, two magnet magnetism is opposite.

The invention has the following beneficial effects:

1. by arranging the rubber ball, the balancing weight, the memory spring, the heating cavity and the cooling cavity, the temperature in the heating cavity is raised by heat in the box body through the heat conducting plate, then the temperature in the rubber ball in the heating cavity is raised and reaches the metamorphosis temperature of the memory spring, then the memory spring is contracted to drive the rubber ball to contract, so that the volume of the rubber ball in the heating cavity is reduced, then the volume of the rubber ball in the cooling cavity expands and extrudes the rubber ball in the heating cavity, further the center of gravity of the disc moves upwards, further the disc rotates to be recovered to a stable state under the action of gravity, at the moment, the rubber ball in the heating cavity rotates to be in the cooling cavity, further the rubber ball returns to an initial state, at the moment, the rubber ball in the cooling cavity enters the heating cavity, further the temperature in the rubber ball rises and contracts, the disc is rotated continuously without other electric drive by repeating the above steps, so that the heat of the box body is reasonably utilized;

2. by arranging the permanent magnet, the magnetic sliding plug and the telescopic spring, the disc continuously rotates to enable the permanent magnet to continuously sweep over the magnetic sliding plug, so that the magnetic sliding plug can slide up and down in a reciprocating manner on the inner wall of the sliding plug cavity, external dye is extruded into the box body through the unidirectional discharging pipe, manual operation is not needed, the extruding amount is consistent every time, and the dyeing quality of the scarf is ensured;

3. through setting up reset spring, magnetic sheet, pivot and magnet, the disc constantly rotates and drives the pivot and rotate, and then drives two magnet alternating and skips the magnetic sheet for the magnetic sheet reciprocates under two magnet alternating suction and repulsion, carries out upper and lower misce bene, the dyeing quality of further increase scarf to the dyestuff in the box.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of the present invention;

FIG. 2 is an enlarged view of the structure at A in FIG. 1;

FIG. 3 is a schematic cross-sectional view of the direction B-B according to a first embodiment of the present invention;

fig. 4 is a schematic structural diagram of a second embodiment of the present invention.

In the figure: the device comprises a box body 1, a heating plate 2, a sliding plug cavity 3, a magnetic sliding plug 4, a telescopic spring 5, a one-way material suction pipe 6, a one-way material discharge pipe 7, a circular cavity 8, a heating cavity 81, a cooling cavity 82, a fixing plate 9, a disc 10, a permanent magnet 11, a heat conducting plate 12, an annular cavity 13, a rubber ball 14, a balancing weight 15, a memory spring 16, a return spring 17, a magnetic plate 18, a rotating shaft 19 and a magnet 20.

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. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, but rather should be construed as broadly as the present invention is capable of modification in various respects, all without departing from the spirit and scope of the present invention.

Example one

Referring to fig. 1-3, a self-metering charging type dye device for scarf production comprises a box body 1, a heating plate 2 is embedded in the bottom of the box body 1, a sliding plug cavity 3 is formed in the inner wall of the box body 1, a magnetic sliding plug 4 is connected to the inner wall of the sliding plug cavity 3 in a sealing and sliding manner, the upper end of the magnetic sliding plug 4 is elastically connected with the top of the inner wall of the sliding plug cavity 3 through a telescopic spring 5, a one-way material sucking pipe 6 is connected to the lower portion of the inner wall of the sliding plug cavity 3, the lower portion of the inner wall of the sliding plug cavity 3 is connected with the inner wall of the box body 1 through a one-way material discharging pipe 7, a through hole is formed in the upper portion of the inner wall of the sliding plug cavity 3 to balance pressure change in the sliding plug cavity 3 when the magnetic sliding plug 4 slides, the one-way material sucking pipe 6 only allows dye;

the box body 1 is located the top in sliding plug chamber 3 and has seted up circular chamber 8, two fixed plates 9 of 8 inner wall symmetries fixed connection in circular chamber, 8 inner walls of circular chamber sealed sliding connection have disc 10, disc 10 and two fixed plate 9 lateral walls sealed sliding connection, disc 10 lower extreme inlays and is equipped with the permanent magnetism piece 11 of inhaling mutually with magnetism sliding plug 4, seted up annular chamber 13 in the disc 10, installation and drive disc 10 pivoted actuating mechanism in the annular chamber 13.

The driving mechanism comprises a plurality of rubber balls 14 which are slidably connected to the inner wall of the annular cavity 13, a balancing weight 15 is fixedly connected to the inner wall of the plurality of rubber balls 14, the side wall of the balancing weight 15 is elastically connected with the inner wall of the rubber balls 14 through a plurality of memory springs 16, further, the memory springs 16 are made of nickel-titanium memory alloy materials with the metamorphosis temperature of 40 ℃, when the temperature on the memory springs 16 reaches the metamorphosis temperature, the memory springs 16 contract, and when the temperature on the memory springs 16 is lower than the metamorphosis temperature, the memory springs 16 stretch.

It should be noted that, in the initial state, the plurality of rubber balls 14 are kept in a balanced state under the elastic force of the plurality of memory springs 16, and since the memory springs 16 have a certain elasticity, when one of the memory springs 16 or the plurality of memory springs 16 contracts, the rubber ball 14 elastically connected thereto is driven to contract, so that the rest of the rubber balls 14 are expanded under the action of the memory springs 16, that is, the contracted rubber balls 14 are squeezed, and the balanced state among the plurality of rubber balls 14 is broken.

Constitute heating chamber 81 between two fixed plate 9 upper ends, disc 10 lateral walls and the circular chamber 8 inner wall, heating chamber 81 inner wall passes through heat-conducting plate 12 and box 1 inner wall connection, constitutes cooling chamber 82 between two fixed plate 9 lower extremes, disc 10 lateral walls and the circular chamber 8 inner wall, is equipped with the coolant liquid in the cooling chamber 82.

In this embodiment, when the heating plate 2 heats the inside of the box body 1, the heat inside the box body 1 enters the heating cavity 81 through the heat conducting plate 12, so that the temperature inside the heating cavity 81 rises, so that the temperature inside the rubber ball 14 located inside the heating cavity 81 rises, when the temperature inside the rubber ball 14 reaches the metamorphosis temperature of the memory spring 16, the memory spring 16 contracts to drive the rubber ball 14 to contract, the rubber ball 14 inside the cooling cavity 82 expands under the action of the memory spring 16, and the rubber ball 14 inside the heating cavity 81 is squeezed, so that the clump weights 15 inside the rubber ball 14 inside the heating cavity 81 are gathered together, the center of gravity of the disc 10 moves upwards, the disc 10 rotates to return to the stable state, the rubber ball 14 inside the heating cavity 81 rotates to the cooling cavity 82, the rubber ball 14 inside the cooling cavity 82 enters the heating cavity 81, and the shape of the rubber ball 14 inside the annular cavity 13 changes again, the gravity center of the disk 10 is further moved upwards, and the disk 10 rotates again, and the process is repeated, so that the disk 10 rotates continuously;

the disc 10 rotates to enable the permanent magnet 11 to continuously sweep over the magnetic sliding plug 4, so that the magnetic sliding plug 4 can slide up and down in a reciprocating mode on the inner wall of the sliding plug cavity 3 under the action of the magnetic attraction of the permanent magnet 11 and the elastic force of the telescopic spring 5, and further under the action of the one-way material suction pipe 6 and the one-way material discharge pipe 7, the sliding plug cavity 3 can intermittently pump equal amount of dye into the box body 1, and the dyeing quality of the scarf is guaranteed.

Example two

Referring to fig. 4, unlike the first embodiment, a magnetic plate 18 is elastically connected to the bottom of the case 1 through a return spring 17, a rotating shaft 19 is fixedly connected to the side wall of the disk 10, two magnets 20 are symmetrically and fixedly connected to the side wall of the rotating shaft 19, and the two magnets 20 have opposite magnetism.

In this embodiment, the disc 10 continuously rotates to drive the rotating shaft 19 to continuously rotate, and further drives the two magnets 20 to alternately sweep over the magnetic plate 18, so that the magnetic plate 18 moves up and down in the case 1 under the action of the alternate attraction and repulsion of the two magnets 20, dyes in the case 1 are uniformly mixed up and down, and the dyeing quality of the scarf is further improved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.