阅读说明：本技术 一种染料称重系统 (Dye weighing system ) 是由 张国平 范明贵 于 2021-09-17 设计创作，主要内容包括：本发明公开了一种染料称重系统,包括架体,所述架体固定连接有呈中空的储料罐,所述储料罐下端设置有出液管,所述出液管设置有第一电磁阀,所述架体位于储料罐的下方固定连接有呈中空的容纳罐,所述出液管固定连接于容纳罐,所述容纳罐内腔设置有称重机构,所述称重机构设置有分装管,所述分装管穿设伸出容纳罐,所述分装管设置有第二电磁阀,所述容纳罐下方设置有支架,所述支架固定连接有平台,所述平台设置有用于盛装染料的盛装罐,所述盛装罐呈中空且上端呈开口设置,所述分装管朝向盛装罐开口设置,所述称重机构与第一电磁阀和第二电磁阀相连接。本发明具有能够减小分装误差、方便后续拿取的效果。(The invention discloses a dye weighing system, which comprises a frame body, wherein the frame body is fixedly connected with a hollow storage tank, a liquid outlet pipe is arranged at the lower end of the storage tank, a first electromagnetic valve is arranged on the liquid outlet pipe, a hollow accommodating tank is fixedly connected with the frame body below the storage tank, the liquid outlet pipe is fixedly connected with the containing tank, the inner cavity of the containing tank is provided with a weighing mechanism, the weighing mechanism is provided with a sub-packaging pipe, the split charging pipe penetrates through and extends out of the containing tank, the split charging pipe is provided with a second electromagnetic valve, a bracket is arranged below the containing tank, the bracket is fixedly connected with a platform, the platform is provided with a containing tank for containing dye, the containing tank is hollow, the upper end of the containing tank is open, the partial shipment pipe sets up towards the splendid attire jar opening, weighing mechanism is connected with first solenoid valve and second solenoid valve. The invention has the effects of reducing the split charging error and facilitating the follow-up taking.)

1. A dye weighing system characterized by: comprises a frame body (1), wherein the frame body (1) is fixedly connected with a hollow storage tank (2), the lower end of the storage tank (2) is provided with a liquid outlet pipe (21), the liquid outlet pipe (21) is provided with a first electromagnetic valve (22), the frame body (1) is fixedly connected with a hollow containing tank (3) below the storage tank (2), the liquid outlet pipe (21) is fixedly connected with the containing tank (3), the inner cavity of the containing tank (3) is provided with a weighing mechanism (4), the weighing mechanism (4) is provided with a sub-packaging pipe (5), the sub-packaging pipe (5) is arranged to penetrate through and extend out of the containing tank (3), the sub-packaging pipe (5) is provided with a second electromagnetic valve (51), a support (6) is arranged below the containing tank (3), the support (6) is fixedly connected with a platform (61), the platform (61) is provided with a containing tank (7) for containing dye, the containing tank (7) is hollow, the upper end of the containing tank is provided with an opening, the subpackaging pipe (5) is arranged towards the opening of the containing tank (7), and the weighing mechanism (4) is connected with the first electromagnetic valve (22) and the second electromagnetic valve (51).

2. A dye weighing system as claimed in claim 1, wherein: weighing mechanism (4) is including setting up in weighing sensor (41) of holding jar (3) inner chamber bottom, hold jar (3) inside and be provided with weighing jar (42), weighing jar (42) are cavity and the upper end is the opening setting, weighing jar (42) are located the top of weighing sensor (41), just weighing jar (42) lower extreme fixed connection is in the induction end of weighing sensor (41), divide tubulation (5) fixed connection in weighing jar (42) lower extreme, divide tubulation (5) to slide and wear to locate and hold jar (3), weighing sensor (41) are arranged in detecting the weight of the dyestuff in weighing jar (42), and are connected with first solenoid valve (22) and second solenoid valve (51) respectively through setting up the controller to control the opening and close of first solenoid valve (22) and second solenoid valve (51).

3. A dye weighing system as claimed in claim 2, wherein: the weighing tank is characterized in that a first flow buffering plate (43) is fixedly connected to the inner wall of one side of the weighing tank (42), a second flow buffering plate (44) is fixedly connected to the inner wall of the other side of the weighing tank (42), the first flow buffering plate (43) and the second flow buffering plate (44) are both arranged in a step shape, and the first flow buffering plate (43) and the second flow buffering plate (44) are respectively arranged in a downward inclined mode.

4. A dye weighing system as claimed in claim 1, wherein: one end fixedly connected with cylinder (8) of platform (61), cylinder (8) output shaft fixedly connected with ejector pad (81), ejector pad (81) butt in containing tank (7) lateral wall makes containing tank (7) push away from partial shipment pipe (5) below.

5. A dye weighing system as claimed in claim 4, wherein: the upper end of the containing tank (7) is rotatably connected with a tank cover (71) used for closing an opening, the tank cover (71) is located at one end, connected with the containing tank (7), of an extending block (72), the extending block (72) is fixedly connected with a connecting rope (73), the connecting rope (73) is fixedly connected with a clamping block (74), an accommodating groove (75) used for accommodating the clamping block (74) is formed in the lower surface of the containing tank (7), when the clamping block (74) is located in the accommodating groove (75), the tank cover (71) is in an open state, one end, deviating from the cylinder (8), of the platform (61) is fixedly connected with a butting block (76), the butting block (76) is arranged in the accommodating groove (75) in a penetrating manner, two ends of the accommodating groove (75) are arranged in an opening manner, when the containing tank (7) moves, the butting block (76) slides in the accommodating groove (75) and butts against the clamping block (74), when the latch (74) is pushed out of the accommodating groove (75), the tank cover (71) is in a closed state.

6. A dye weighing system as claimed in claim 1, wherein: a base (9) is arranged on one side of the frame body (1), the base (9) is fixedly connected with two upright posts (91), the two upright posts (91) are rotatably connected with a transverse shaft (92), the two ends of the transverse shaft (92) are respectively fixedly connected with a turntable (94), the turntable (94) is fixedly connected with a plurality of connecting rods (95) along the radial direction, the connecting rods (95) are arranged along the circumferential direction of the turntable (94), the connecting rods (95) of the two turntables (94) are aligned one by one, one end of each connecting rod (95) departing from the turntable (94) is rotatably connected with a rotating shaft (96), the rotating shaft (96) is provided with a storage mechanism (10) for placing the containing tank (7), the storage mechanism (10) is arranged at one end of the platform (61) departing from the cylinder (8), the upright post (91) is provided with a motor (93), and an output shaft of the motor (93) is fixedly connected to the transverse shaft (92).

7. A dye weighing system as claimed in claim 6, wherein: the storage mechanism (10) comprises a plurality of suspension frames (101) fixedly connected to a rotating shaft (96), a rectangular bearing box (102) is arranged below the rotating shaft (96), the suspension frames (101) are fixedly connected to the upper end of the bearing box (102), the bearing box (102) is hollow, the upper end of the bearing box (102) is open, a window (103) for the containing tank (7) to enter the inner cavity is formed in one end, close to the support (6), of the bearing box (102), a protection plate (105) used for preventing the containing tank (7) from sliding out is rotatably connected to the window (103), a limiting block (106) is fixedly connected to one side, located on the window (103), of the outer wall of the bearing box (102), the limiting block (106) abuts against one side, away from the inner cavity of the bearing box (102), and the distance between connecting rods (95) of the rotary discs (94) is larger than the width of the bearing box (102), meanwhile, the distance between the rotating shaft (96) and the lower surface of the bearing box (102) is smaller than the distance between the rotating shaft (96) and the edge of the rotating disc (94).

8. A dye weighing system as claimed in claim 7, wherein: the bearing box is characterized in that a plurality of driving rollers (104) are rotatably connected to the bottom wall of the interior of the bearing box (102), and the driving rollers (104) are arranged along the length direction of the bearing box (102).

Technical Field

The invention relates to the field of weighing, in particular to a dye weighing system.

Background

Dyes are organic compounds that give other substances a bright and strong hue, and dyes are generally compounds that are self-colored and that give other substances a bright and strong hue in a molecular or dispersed state.

Most of dyes are manufactured by manual synthesis at present, so that after the dyes are manufactured, the dyes loaded in a vat need to be manually and respectively loaded in dye tanks with specified weight, the dye tanks are stored in a warehouse, two-dimensional codes are pasted outside the dye tanks, and the positions of the dye tanks in the warehouse are recorded in the two-dimensional codes, so that an operator can obtain the positions of the dye tanks in the warehouse by scanning the two-dimensional codes, and the operator can conveniently take the dyes.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: because the dyes are separately loaded through manual operation, the weight of each dye tank is easy to have large errors.

Disclosure of Invention

To reduce errors, the present application provides a dye weighing system.

The application provides a dyestuff weighing system adopts following technical scheme:

the utility model provides a dyestuff weighing system, includes the support body, support body fixedly connected with is hollow storage tank, the storage tank lower extreme is provided with the drain pipe, the drain pipe is provided with first solenoid valve, the below fixedly connected with that the support body is located the storage tank is hollow and holds the jar, drain pipe fixed connection is in holding the jar, it is provided with weighing machine to hold jar inner chamber, weighing machine is provided with the partial shipment pipe, the partial shipment pipe is worn to establish and is stretched out and hold the jar, the partial shipment pipe is provided with the second solenoid valve, it is provided with the support to hold jar below, support fixedly connected with platform, the platform is provided with the splendid attire jar that is used for the splendid attire dyestuff, the splendid attire jar is cavity and upper end and is the opening setting, the partial shipment pipe sets up towards the splendid attire jar opening, weighing machine is connected with first solenoid valve and second solenoid valve.

Through adopting above-mentioned technical scheme, during the dyestuff in the storage tank passes through the drain pipe entering and holds jar to weigh through weighing machine structure, when satisfying regulation weight, the first solenoid valve of weighing machine structure control is closed, and the second solenoid valve of simultaneous control is opened, makes the dyestuff stop to get into and holds jar, and holds the dyestuff in the jar and pass through the partial shipment pipe and get into the splendid attire jar, and then reduces the error.

Optionally, the weighing mechanism is including setting up in the weighing sensor who holds jar inner chamber bottom, the jar of weighing is provided with inside the holding tank, the jar of weighing is cavity and the upper end is the opening setting, the jar of weighing is located weighing sensor's top, just jar of weighing lower extreme fixed connection is in weighing sensor's response end, divide tubulation fixed connection in jar of weighing lower extreme, divide the tubulation to slide and wear to locate the holding tank, weighing sensor is arranged in detecting the weight of the dyestuff in the jar of weighing, and is connected with first solenoid valve and second solenoid valve respectively through setting up the controller to control opening and close of first solenoid valve and second solenoid valve.

Through adopting above-mentioned technical scheme, in the dyestuff flows into the jar of weighing in holding the jar from the drain pipe, through the weight of weighing sensor survey dyestuff, when the dyestuff weight in the jar of weighing satisfies regulation weight, weighing sensor is to controller output detected signal, and the controller responds detected signal and controls first solenoid valve and close, the second solenoid valve is opened to make the dyestuff get into the splendid attire jar through the partial shipment pipe in.

Optionally, a first flow slowing plate is fixedly connected to the inner wall of one side of the weighing tank, a second flow slowing plate is fixedly connected to the inner wall of the other side of the weighing tank, the first flow slowing plate and the second flow slowing plate are both arranged in a stepped manner, and the first flow slowing plate and the second flow slowing plate are respectively arranged in a downward inclined manner.

Through adopting above-mentioned technical scheme, through setting up first gentle stream board and second gentle stream board, when making the dyestuff flow to weighing in the jar from going out the liquid pipe, can make the dyestuff slowly flow down through the unhurried current of first gentle stream board and second gentle stream board, prevent that the dyestuff from directly impacting at weighing tank bottoms, the sensitivity of weighing sensor causes the influence.

Optionally, one end of the platform is fixedly connected with a cylinder, an output shaft of the cylinder is fixedly connected with a push block, and the push block abuts against the side wall of the containing tank, so that the containing tank is pushed away from the lower side of the sub-packaging pipe.

Through adopting above-mentioned technical scheme, after the dyestuff flows into the splendid attire jar, the cylinder is opened to the accessible, and the cylinder drive ejector pad removes, makes the ejector pad can push the splendid attire jar away from partial shipment pipe below, and the operator of being convenient for places next splendid attire jar.

Optionally, one side rotation that splendid attire jar upper end and be close to the cylinder is connected with and is used for closed open-ended cover, the cover is located the one end fixedly connected with extension piece of being connected with the splendid attire jar, extend a fixedly connected with connection rope, connect rope fixedly connected with fixture block, the holding tank that is used for holding the fixture block is offered to the splendid attire jar lower surface, works as when the fixture block is located the holding tank, the cover is in the open mode, the one end fixedly connected with butt piece that the platform deviates from the cylinder, the butt piece is worn to locate in the holding tank, the both ends of holding tank are the opening setting, when the splendid attire jar removed, the butt piece slides and wears to locate holding tank and butt in the fixture block, and when releasing the holding tank with the fixture block, the cover is in the closed condition.

Through adopting above-mentioned technical scheme, the ejector pad is when promoting the splendid attire jar and removing, and the butt piece is along holding tank butt in the fixture block, and at the in-process that the splendid attire jar removed, the butt piece can be released the fixture block from holding the groove, and then the cover has lost the pulling force, because of self gravity, rotates downwards, makes the cover close in the opening of splendid attire jar to at the in-process of moving away from partial shipment pipe below with the splendid attire jar, the cover also can realize the closure, prevents that the foreign matter from falling into in the dyestuff.

Optionally, one side of support body is provided with the base, base fixedly connected with coexistence post, two the stand rotates and is connected with the cross axle, the both ends difference fixedly connected with carousel of cross axle, the carousel is along a plurality of connecting rods of its radial fixedly connected with, and is a plurality of the connecting rod sets up along carousel circumference arrangement, two the connecting rod one-to-one alignment of carousel sets up, two the connecting rod deviates from the one end rotation of carousel and is connected with the pivot, the pivot is provided with the mechanism that stores that is used for supplying the splendid attire jar to place, store the one end setting that the mechanism is located the platform and deviates from the cylinder, the stand is provided with the motor, motor output shaft fixed connection is in the cross axle.

Through adopting above-mentioned technical scheme, in order to can be better depositing the splendid attire jar, the motor drive cross axle rotates, and the cross axle drives the carousel and rotates, makes the connecting rod drive store the mechanism and removes, makes the discharge end that stores the mechanism and remove to the platform, and the cylinder pushes the splendid attire jar to storing in the mechanism.

It is optional, store a plurality of mounted frames of mechanism in pivot including fixed connection, the pivot below is provided with the bearing case that is the rectangle form, mounted frame fixed connection is in bearing case upper end, the bearing case is cavity and upper end and is the opening, simultaneously the bearing case is close to the one end of support and offers the window that supplies the splendid attire jar to get into the inner chamber, the window rotates and is connected with the guard plate that is used for preventing the splendid attire jar roll-off, accept the case outer wall and be located one side fixedly connected with stopper of window, the stopper butt deviates from one side of accepting the incasement chamber in the guard plate, two distance between the connecting rod of carousel is greater than the width of bearing case, simultaneously the pivot is less than the distance between pivot to the carousel border to the distance between the bearing case lower surface.

Through adopting above-mentioned technical scheme, the carousel rotates, makes the connecting rod drive the bearing case and removes to the height that flushes with the platform, and the cylinder promotes the splendid attire jar and removes, makes the splendid attire jar get into from the window to push the guard plate open, and enter the bearing case inner chamber, later guard plate rotates and resets, and restriction splendid attire jar follows the window roll-off, and later the carousel can continue to rotate, makes next bearing case remove to the height that flushes with the platform, deposits for next splendid attire jar and makes preparation.

Optionally, the bottom wall inside the bearing box is connected with a plurality of driving rollers in a rotating mode, and the driving rollers are arranged along the length direction of the bearing box.

Through adopting above-mentioned technical scheme, through setting up the driving roller, reduce the frictional force that holds between incasement wall and the splendid attire jar diapire, the cylinder of being convenient for pushes away the splendid attire jar and holds the incasement.

In summary, the present application includes at least one of the following beneficial technical effects:

dyestuff in the storage tank passes through the drain pipe and gets into and hold the jar to weigh through weighing mechanism, when satisfying regulation weight, the first solenoid valve of weighing mechanism control is closed, and control second solenoid valve opens simultaneously, makes the dyestuff stop to get into and holds jar in, and holds the dyestuff in jar and pass through the partial shipment pipe and get into the splendid attire jar, and then reduce the error.

The ejector pad is when promoting splendid attire jar and remove, and the butt piece can be released the fixture block from holding the groove at the in-process that the splendid attire jar removed along holding tank butt in the fixture block, and then the cover has lost the pulling force, because of self gravity, rotates downwards, makes the cover closed in the opening of splendid attire jar to at the in-process that removes the splendid attire jar from partial shipment pipe below, the cover also can realize closing, prevents that the foreign matter from falling into in the dyestuff.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

FIG. 2 is a cross-sectional view of a storage tank and holding tank in an embodiment of the present application.

Fig. 3 is a schematic structural view of the storage mechanism in the embodiment of the present application.

Fig. 4 is a schematic structural view of a canister in an embodiment of the present application.

Description of reference numerals:

1. a frame body; 2. a material storage tank; 21. a liquid outlet pipe; 22. a first solenoid valve; 3. a holding tank; 4. a weighing mechanism; 5. subpackaging pipes; 51. a second solenoid valve; 6. a support; 61. a platform; 7. filling a tank; 41. a weighing sensor; 42. weighing the tank; 43. a first buffer plate; 44. a second buffer plate; 8. a cylinder; 81. a push block; 9. a base; 91. a column; 92. a horizontal axis; 93. a motor; 94. a turntable; 95. a connecting rod; 96. a rotating shaft; 10. a storage mechanism; 101. a suspension bracket; 102. a receiving box; 103. a window; 104. a driving roller; 105. a protection plate; 106. a limiting block; 71. a can lid; 72. an extension block; 73. connecting ropes; 74. a clamping block; 75. accommodating grooves; 76. and a butt joint block.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a dye weighing system. Referring to fig. 1 and 2, a dyestuff weighing system is including being vertical support body 1, and the welding of 1 upper end of support body has and is vertical storage tank 2, and storage tank 2 is the cavity setting, and the welding of 2 lower extremes of storage tank and intercommunication have drain pipe 21, and drain pipe 21 is provided with first solenoid valve 22. The welding of support body 1 below that is located storage tank 2 has and is hollow holding tank 3, and the welding of drain pipe 21 lower extreme just communicates in the upper end that holds tank 3. Hold 3 inner chambers of jar and be provided with weighing mechanism 4, weighing mechanism 4 is connected with partial shipment pipe 5, and partial shipment pipe 5 slides and wears to establish and stretch out the lower extreme that holds jar 3, and partial shipment pipe 5 is provided with second solenoid valve 51, and wherein weighing mechanism 4 is connected with first solenoid valve 22 and second solenoid valve 51 respectively. Holding tank 3 below is provided with and is horizontal support 6, and support 6 upper end welding has and is horizontal platform 61. The upper surface of the platform 61 is provided with a containing tank 7 for containing dye, and the containing tank 7 is hollow and has an opening at the upper end. The container 7 is located below the container 3, and the dispensing tube 5 is opened toward the container 7.

Referring to fig. 2, weighing mechanism 4 includes a weighing sensor 41 fixedly mounted on the bottom wall of the inner cavity of holding tank 3, a weighing tank 42 is arranged inside holding tank 3, weighing tank 42 is hollow and has an upper end in an opening arrangement, and drain pipe 21 is arranged towards opening of weighing tank 42. The inner wall of one side of the weighing tank 42 is welded with a first flow buffering plate 43, the inner wall of the other side of the weighing tank 42 is welded with a second flow buffering plate 44, the first flow buffering plate 43 and the second flow buffering plate 44 are both in a step shape and are arranged in a downward inclined mode, meanwhile, the lower end of the first flow buffering plate 43 is located right above the second flow buffering plate 44, an interval for dye to flow down is reserved between the lower end of the first flow buffering plate 43 and the upper surface of the second flow buffering plate 44, and an interval for dye to flow down is reserved between the lower end of the second flow buffering plate 44 and the inner wall of the weighing tank 42. The weighing tank 42 is positioned right above the weighing sensor 41, the lower end of the weighing tank 42 is fixed at the sensing end of the weighing sensor 41, and the time-division packaging pipe 5 is welded and communicated with the lower end of the weighing tank 42.

The weighing sensor 41 is used for detecting the weight of the dye in the weighing tank 42, and is respectively connected with the first electromagnetic valve 22 and the second electromagnetic valve 51 through a controller, when the weighing sensor 41 detects that the weight of the dye reaches a preset specified weight, a detection signal is output, the controller responds to the detection signal, controls the first electromagnetic valve 22 to be closed, and simultaneously controls the second electromagnetic valve 51 to be opened, so that the dye enters the containing tank 7 from the sub-packaging pipe 5 after being weighed by the weighing tank 42, and sub-packaging is completed; when the weight value detected by the weighing sensor 41 is the weight of the weighing tank 42, which indicates that all the dye in the weighing tank 42 has flowed into the holding tank 7 at this time, the weighing sensor 41 outputs a prompt signal, and the controller responds to the prompt signal and controls the second electromagnetic valve 51 to close and the first electromagnetic valve 22 to open.

Referring to fig. 2, there is cylinder 8 one end of platform 61 through the fix with screw, and 8 output shaft welding of cylinder have be vertical ejector pad 81, ejector pad 81 butt in splendid attire jar 7 lateral wall, make splendid attire jar 7 can follow partial shipment pipe 5 below and remove to be convenient for the operator place next splendid attire jar 7 under partial shipment pipe 5, deposit in order to make splendid attire jar 7 can concentrate more, save space simultaneously.

Referring to fig. 1 and 3, one side of support body 1 is provided with and is horizontally base 9, and base 9 is close to the one end setting that platform 61 deviates from cylinder 8, and base 9 upper surface welding has two to be vertical stand 91, two stand 91 upper end is connected with cross axle 92 through the bearing rotation, and the stand 91 lateral wall has motor 93 through the fix with screw, and the motor 93 output shaft welds in the one end of cross axle 92. The two ends of the transverse shaft 92 are respectively welded with a circular turntable 94, the turntables 94 are coaxial with the transverse shaft 92, and the two turntables 94 have the same size. The border of carousel 94 has a plurality of connecting rods 95 along its radial welding, and a plurality of connecting rods 95 arrange along the circumference equidistance of carousel 94 and set up, and the connecting rod 95 of two carousels 94 aligns the setting one by one simultaneously. The ends of the two connecting rods 95 facing away from the rotating disc 94 are rotatably connected with a horizontal rotating shaft 96 through bearings. The rotary shaft 96 is provided with the storage mechanism 10.

Referring to fig. 3, the storage mechanism 10 includes four suspension brackets 101 welded to the rotation shaft 96, a rectangular receiving box 102 is disposed below the rotation shaft 96, the receiving box 102 is horizontal, and the receiving box 102 is hollow and has an open upper end. The width direction of the receiving box 102 is parallel to the axial direction of the rotating shaft 96, the four suspension brackets 101 are respectively fixed at four corners of the upper end of the receiving box 102 through screws, the length direction of the receiving box 102 is parallel to the length direction of the platform 61, and meanwhile, the receiving box 102 is aligned with the platform 61. Secondly, the distance between the connecting rods 95 of the two rotating discs 94 is larger than the width of the receiving box 102, and the distance between the rotating shaft 96 and the lower surface of the receiving box 102 is smaller than the distance between the rotating shaft 96 and the edge of the rotating disc 94, so that when the transverse shaft 92 rotates, the rotating disc 94 can drive each receiving box 102 to be in a horizontal state and move in the circumferential direction.

Referring to fig. 1 and 3, one end of the receiving box 102 close to the platform 61 is provided with a window 103 for the holding tank 7 to enter the inner cavity of the receiving box 102, the lower end of the window 103 is coplanar with the bottom wall inside the receiving box 102, the bottom wall of the inner cavity of the receiving box 102 can be flush with the platform 61, meanwhile, the height of the window 103 is greater than that of the holding tank 7, and the width of the window 103 is greater than that of the holding tank 7. Meanwhile, the bottom wall inside the bearing box 102 is rotatably connected with a plurality of driving rollers 104 through bearings, the axial direction of the driving rollers 104 is perpendicular to the moving direction of the containing tank 7, and the driving rollers 104 are arranged at equal intervals along the length direction of the bearing box 102.

Referring to fig. 2 and 3, the upper end of the window 103 is hinged with a protection plate 105 for preventing the containing tank 7 from sliding out, and the protection plate 105 rotates along the vertical direction. The welding of the upper end position that holds and connect case 102 outer wall and be located window 103 is vertical stopper 106, and stopper 106 butt deviates from the lateral wall that holds and connect the case 102 inner chamber in protection plate 105, thereby make protection plate 105 can only rotate towards the direction that is close to the interior chamber of holding and connect case 102, and then cylinder 8 drive ejector pad 81 removes, ejector pad 81 pushes holding and connect the case 102 inner chamber with splendid attire jar 7 from window 103 department, the length that holds and connect case 102 is greater than the length of splendid attire jar 7 in addition, and make protection plate 105 can rotate and reset, and shelter from part window 103, make the distance between protection plate 105 lower extreme to the window 103 lower extreme be less than the height of splendid attire jar 7, and then prevent that splendid attire jar 7 from window 103 roll-off to holding and connect the case 102 outside.

Referring to fig. 4, in order to prevent foreign matters from falling into the dye in the container 7, a cover 71 for closing an opening of the container 7 is hinged to one side of the upper end of the container 7 close to the cylinder 8, an extension block 72 is welded to a position of the cover 71 at the hinged end, and the extension block 72 is arranged along the length direction of the cover 71. A connecting rope 73 is bonded to one end, away from the cover 71, of the extending block 72, a latch 74 is bonded to one end, away from the extending block 72, of the connecting rope 73, and the weight of the latch 74 is smaller than that of the cover 71. Holding tank 7 lower surface is along transversely offering the holding tank 75 that is used for holding fixture block 74, and holding tank 75 is offered along holding tank 7 moving direction, and the both ends of holding tank 75 all are the opening setting.

Referring to fig. 3 and 4, a horizontal abutting block 76 is welded on the upper surface of the platform 61, the abutting block 76 is located at one end of the platform 61 departing from the cylinder 8, and the abutting block 76 is inserted into the accommodating groove 75 and abuts against the fixture block 74. When the fixture block 74 is positioned in the accommodating groove 75, the connecting rope 73 is straightened, so that the tank cover 71 is in an open state; after the dye flows into the container 7, the cylinder 8 pushes the container 7 to move toward the direction close to the window 103, so that the abutting block 76 pushes the latch 74 and pushes the latch 74 out of the accommodating groove 75, and the can cover 71 is in a closed state, and then the container 7 enters the receiving box 102 from the window 103. Secondly, because the abutting block 76 is positioned in the accommodating groove 75, the limiting effect is achieved, and the containing tank 7 can smoothly enter the containing box 102 from the window 103.

The implementation principle of the embodiment of the application is as follows: dye in the storage tank 2 flows to the weighing tank 42 from the liquid outlet pipe 21, weighing is carried out through the weighing sensor 41, when the specified weight is met, the first electromagnetic valve 22 is closed, the second electromagnetic valve 51 is opened, the dye flows into the containing tank 7 through the distribution pipe 5, then the containing tank 7 is pushed towards the receiving box 102 by the air cylinder 8, meanwhile the motor 93 drives the turntable 94 to rotate, the lower surface of the window 103 of the receiving box 102 is driven by the turntable 94 to be flush with the upper surface of the platform 61 in height, meanwhile, the containing tank 7 moves in the process, the abutting block 76 pushes the fixture block 74 out of the containing groove 75, the tank cover 71 is closed, the opening of the containing tank 7 is opened, then the containing tank 7 enters the receiving box 102 from the window 103 under the pushing effect of the air cylinder 8, storage is completed, the operation can be subsequently repeated, the split charging error is reduced, and storage and taking are convenient.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.