CN204447892U - The colored colour mixer of a kind of glass cement - Google Patents

Abstract

The utility model provides a kind of glass cement colored colour mixer, comprise pigment feeder group (1), mixing tube (2), glass cement quantitative conveyer (3), mixing output device (4), various pigment for mixing colours are fed through described mixing tube (2) through described pigment feeder group (1) and carry out mixing toning, mixing the toner pigment after having mixed colours carries in quantitative toner pigment to described mixing output device (4) through described glass cement quantitative conveyer (3) by described mixing tube (2), last described mixing output device (4) exports toner pigment.The utility model achieves automatic color regulating, and production efficiency is low, yields poorly, and loss is large, and cost is high, and order volume cannot be produced less.Be applicable to the toning of glass cement colour.

Description

The colored colour mixer of a kind of glass cement

Technical field

The utility model relates to technology of mix colors field, particularly relates to the colored colour mixer of a kind of glass cement.

Background technology

The paint color toning of prior art is all that the mode adopting agitator to stir is mixed colours, and production efficiency is low, yields poorly, and loss is large, and cost is high, and order volume cannot be produced less.

Utility model content

For above-mentioned prior art, technical problem to be solved in the utility model is to provide that a kind of production efficiency is high, and output is high, and loss is few, and cost is low, and by the impact that order volume is how many, can the colored colour mixer of glass cement of automatic color regulating.

In order to solve the problems of the technologies described above, the utility model provides the colored colour mixer of a kind of glass cement, comprise pigment feeder group, mixing tube, glass cement quantitative conveyer, mixing output device, pearl cage hybrid channel assembly, be fed through described mixing tube for the various pigment of mixing colours through described pigment feeder group and carry from described glass cement quantitative conveyer the quantitative glass cement of coming to carry out mixing to mix colours, the stained glass glue mixed after having mixed colours enters in described mixing output device, described mixing output device outwards exports stained glass glue through described pearl cage hybrid channel assembly.

Further improvement of the utility model is, described pigment feeder group comprises several pigment feeder assembly, the first supporting mechanisms, described pigment feeder assembly is installed on the first supporting mechanism, and several pigment feeder assemblies described carry pigment to described mixing tube simultaneously.

Further improvement of the utility model is, described glass cement quantitative conveyer comprises the second servomotor, second top board, second screw mandrel, second feed screw nut, second feed screw nut's adapter sleeve, second quantitative cylinder, second triple valve, second base plate, second column, second cylinder, second free bearing, described second servomotor is provided with the second servo motor output shaft, described second quantitative cylinder is provided with the second quantitative cylinder piston, described second triple valve is provided with the first valve connecting lever, described second cylinder is provided with the second cylinder output shaft, described second top board is fixedly connected with the second base plate by 4 second columns, described second servomotor is installed on the second top board, described second servo motor output shaft is fixedly connected with the second screw mandrel, described second screw mandrel is connected with the second screw nut driving, described second feed screw nut is connected with the second quantitative cylinder piston by second feed screw nut's adapter sleeve, described second quantitative cylinder is installed on the second triple valve, described second triple valve is installed on the second base plate, under described second free bearing is installed on the second top board, described second cylinder and the second free bearing hinged, described second cylinder output shaft and the first valve connecting lever are rotationally connected.

Further improvement of the utility model is, described mixing output device comprises hydraulic cylinder, 3rd top board, second depression bar, 3rd quantitative cylinder, 3rd triple valve, 3rd column, 3rd cylinder, 3rd free bearing, described hydraulic cylinder is provided with piston rod, described 3rd quantitative cylinder is provided with the 3rd quantitative cylinder piston, described 3rd triple valve is provided with the second valve connecting lever, described 3rd cylinder is provided with the 3rd cylinder output shaft, described 3rd top board is fixedly connected with the second base plate by 4 the 3rd columns, described hydraulic cylinder is installed on the 3rd top board, described piston rod is fixedly connected with the second depression bar, described second depression bar is connected with the 3rd quantitative cylinder piston, described 3rd quantitative cylinder is installed on the 3rd triple valve, described 3rd triple valve is installed on the second base plate, under described 3rd free bearing is installed on the 3rd top board, described 3rd free bearing and the 3rd cylinder hinged, described 3rd cylinder output shaft and the second valve connecting lever are rotationally connected.

Further improvement of the utility model is, described pearl cage hybrid channel assembly comprises the first pearl cage hybrid channel, the second pearl cage hybrid channel, the inlet seal of described first pearl cage hybrid channel is communicated in the outlet of mixing output device, and the exit seal of described first pearl cage hybrid channel is communicated in the entrance of the second pearl cage hybrid channel.

Further improvement of the utility model is, the colored colour mixer of described glass cement also comprises discharging pipeline assembly, described discharging pipeline assembly comprises the adapter of plastic emitting valve, threeway manual ball valve, two-way manual ball valve, go out sebific duct, the inlet seal of described plastic emitting valve adapter is communicated in the outlet of the second pearl cage hybrid channel, the inlet seal of described threeway manual ball valve is communicated in the outlet of plastic emitting valve adapter, the entrance of described two-way manual ball valve is communicated in the outlet of threeway manual ball valve by outer tooth joint sealing, described go out the entrance of sebific duct be communicated in the outlet of two-way manual ball valve by outer tooth joint sealing.

Further improvement of the utility model is, described first supporting mechanism comprises the first top board, the first base plate, the first column, linear bearing installing plate, connecting plate, described first top board is fixedly connected with the first base plate by 6 first columns, under described linear bearing installing plate is fixedly installed in the first top board by 4 pieces of connecting plates.

Further improvement of the utility model is, described pigment feeder assembly comprises the first servomotor, first servomotor installing plate, side plate, backing plate, first screw mandrel, first feed screw nut, first feed screw nut's adapter sleeve, first depression bar, linear bearing, first quantitative cylinder, first triple valve, first cylinder, first cylinder mount pad, connecting rod, described first servomotor is provided with the first servo motor output shaft, described first cylinder is provided with the first cylinder output shaft, described first quantitative cylinder is provided with the first quantitative cylinder piston, described first servomotor installing plate is fixedly installed on backing plate by 2 blocks of side plates, described backing plate is fixedly installed on the first top board, described linear bearing is fixedly installed in linear bearing installing plate, described first servomotor is fixedly installed on the first servomotor installing plate, described first servo motor output shaft is fixedly connected with the first screw mandrel, described first screw mandrel is connected with the first screw nut driving, described first feed screw nut's adapter sleeve is fixedly connected with the first feed screw nut, described first depression bar slides up and down with linear bearing and is connected, described first depression bar is connected with the first quantitative cylinder piston, described first quantitative cylinder is installed on the first triple valve, described first triple valve is installed on the first base plate, described first cylinder is fixedly installed in the first triple valve side by the first cylinder mount pad, described first cylinder output shaft is fixedly connected with by the pull bar of connecting rod with the first triple valve, described first triple valve to be sealed with mixing tube by pipeline and is communicated with.

Further improvement of the utility model is, described hydraulic cylinder is oil cylinder.

Further improvement of the utility model is, described first triple valve is sealed by pipeline and mixing tube and is communicated with junction and is provided with check valve.

Compared with prior art, the utility model advantage is, the various pigment being used for mixing colours are fed through described mixing tube through described pigment feeder group and carry from described glass cement quantitative conveyer the quantitative glass cement of coming to carry out mixing to mix colours by the utility model, the stained glass glue mixed after having mixed colours enters in described mixing output device, and described mixing output device outwards exports stained glass glue through described pearl cage hybrid channel assembly.The utility model achieves automatic color regulating, and production efficiency is high, and output is high, and loss is few, and cost is low, and not by the impact that order volume is how many.

Accompanying drawing explanation

Fig. 1 is stereogram of the present utility model;

Fig. 2 is pigment feeder group stereogram of the present utility model;

Fig. 3 is single pigment feeder assembly of the present utility model and the first supporting mechanism stereogram;

Fig. 4 is the expanded view of Fig. 3;

Fig. 5 is glass cement quantitative conveyer stereogram of the present utility model;

Fig. 6 is the expanded view of Fig. 5;

Fig. 7 is mixing output device stereogram of the present utility model;

Fig. 8 is the expanded view of Fig. 7;

Fig. 9 is pearl cage hybrid channel assembly of the present utility model and discharging pipeline assembly stereogram.

In figure, each component names is as follows:

1-pigment feeder group;

11-pigment feeder assembly;

1101-the first servomotor;

1102-the first servomotor installing plate;

1103-side plate;

1104-backing plate;

1105-the first screw mandrel;

1106-the first feed screw nut;

1107-the first feed screw nut's adapter sleeve;

1108-the first depression bar;

1109-linear bearing;

1110-the first quantitative cylinder;

1111-the first triple valve;

1112-the first cylinder;

1113-the first cylinder mount pad;

1114-connecting rod;

12-the first supporting mechanism;

121-the first top board;

122-the first base plate;

123-the first column;

124-linear bearing installing plate;

125-connecting plate;

2-mixing tube;

3-glass cement quantitative conveyer;

301-the second servomotor;

302-the second top board;

303-the second screw mandrel;

304-the second feed screw nut;

305-the second feed screw nut's adapter sleeve;

306-the second quantitative cylinder;

307-the second triple valve;

3071-the first valve connecting lever;

308-the second base plate;

309-the second column;

310-the second cylinder;

311-the second free bearing;

4-mixing output device;

41-hydraulic cylinder;

42-the three top board;

43-the second depression bar;

44-the three quantitative cylinder;

45-the three triple valve;

451-the second valve connecting lever;

46-the three column;

47-the three cylinder;

48-the three free bearing;

5-pearl cage hybrid channel assembly;

51-the first pearl cage hybrid channel;

52-the second pearl cage hybrid channel;

6-discharging pipeline assembly;

61-plastic emitting valve is taken over;

62-threeway manual ball valve;

63-two-way manual ball valve;

64-go out sebific duct;

7-frame.

Detailed description of the invention

To illustrate below in conjunction with accompanying drawing and detailed description of the invention further illustrates the utility model.

As shown in Figure 1, the colored colour mixer of a kind of glass cement, it comprises pigment feeder group 1, mixing tube 2, glass cement quantitative conveyer 3, mixing output device 4, pearl cage hybrid channel assembly 5, be fed through described mixing tube 2 for the various pigment of mixing colours through described pigment feeder group 1 and carry from described glass cement quantitative conveyer 3 the quantitative glass cement of coming to carry out mixing to mix colours, the stained glass glue mixed after having mixed colours enters in described mixing output device 4, described mixing output device 4 outwards exports stained glass glue through described pearl cage hybrid channel assembly 5.

Particularly, as shown in Figure 2, Figure 3 and Figure 4, described pigment feeder group 1 comprises 6 pigment feeder assembly 11, first supporting mechanisms 12, described pigment feeder assembly 11 is installed on the first supporting mechanism 12, and described 6 pigment feeder assemblies 11 carry pigment to described mixing tube 2 simultaneously.Described pigment feeder assembly 11 comprises the first servomotor 1101, first servomotor installing plate 1102, side plate 1103, backing plate 1104, first screw mandrel 1105, first feed screw nut 1106, first feed screw nut's adapter sleeve 1107, first depression bar 1108, linear bearing 1109, first quantitative cylinder 1110, first triple valve 1111, first cylinder 1112, first cylinder mount pad 1113, connecting rod 1114, described first servomotor 1101 is provided with the first servo motor output shaft, described first cylinder 1112 is provided with the first cylinder output shaft, described first quantitative cylinder 1110 is provided with the first quantitative cylinder piston, described first supporting mechanism 12 comprises the first top board 121, first base plate 122, first column 123, linear bearing installing plate 124, connecting plate 125.Described first top board 121 is fixedly connected with the first base plate 122 by 6 first columns 123, and described linear bearing installing plate 124 is fixedly installed in the first top board 121 times by 4 pieces of connecting plates 125.Described first servomotor installing plate 1102 is fixedly installed on backing plate 1104 by 2 blocks of side plates 1103, described backing plate 1104 is fixedly installed on the first top board 121, the quantity of described linear bearing 1109 is 6, be fixedly installed in linear bearing installing plate 124 respectively, described first servomotor 1101 is fixedly installed on the first servomotor installing plate 1102, described first servo motor output shaft is fixedly connected with the first screw mandrel 1105, described first screw mandrel 1105 and the first feed screw nut 1106 are in transmission connection, described first feed screw nut's adapter sleeve 1107 is fixedly connected with the first feed screw nut 1106, described first depression bar 1108 slides up and down with linear bearing 1109 and is connected, described first depression bar 1108 is fixedly connected with the first quantitative cylinder piston, described first quantitative cylinder 1110 is fixedly installed on the first triple valve 1111, described first triple valve 1111 is fixedly installed on the first base plate 122, described first cylinder 1112 is fixedly installed in the first triple valve 1111 side by the first cylinder mount pad 1113, described first cylinder output shaft is fixedly connected with by the pull bar of connecting rod 1114 with the first triple valve 1111, described first triple valve 1111 to be sealed with mixing tube 2 by pipeline and is communicated with.Described mixing tube 2 is provided with 6 pigment entrances, and the outlet of described 6 the first triple valves 1111 is communicated with 6 pigment inlet seals of mixing tube 2 respectively by pipeline.In order to prevent pigment from flowing backwards, described first triple valve 1111 is sealed by pipeline and mixing tube 2 and is communicated with junction and is provided with check valve.

Particularly, as shown in Figures 5 and 6, described glass cement quantitative conveyer 3 comprises the second servomotor 301, second top board 302, second screw mandrel 303, second feed screw nut 304, second feed screw nut's adapter sleeve 305, second quantitative cylinder 306, second triple valve 307, second base plate 308, second column 309, second cylinder 310, second free bearing 311, described second servomotor 301 is provided with the second servo motor output shaft, described second quantitative cylinder 306 is provided with the second quantitative cylinder piston, described second triple valve 307 is provided with the first valve connecting lever 3071, described second cylinder 310 is provided with the second cylinder output shaft, described second top board 302 is fixedly connected with the second base plate 308 by 4 second columns 309, described second servomotor 301 is fixedly installed on the second top board 302, described second servo motor output shaft is fixedly connected with the second screw mandrel 303, described second screw mandrel 303 and the second feed screw nut 304 are in transmission connection, described second feed screw nut 304 is connected with the second quantitative cylinder piston by second feed screw nut's adapter sleeve 305, described second quantitative cylinder 306 is fixedly installed in the second triple valve 307, described second triple valve 307 is fixedly installed on the second base plate 308, described second free bearing 311 is fixedly installed in the second top board 302 times, described second cylinder 310 and the second free bearing 311 hinged, described second cylinder output shaft and the first valve connecting lever 3071 are rotationally connected.One end inlet seal of described mixing tube 2 is communicated in the outlet of the second triple valve 307.

Particularly, as shown in Figures 7 and 8, described mixing output device 4 comprises hydraulic cylinder 41, the 3rd top board 42, second depression bar 43, the 3rd quantitative cylinder 44, the 3rd triple valve 45, the 3rd column 46, the 3rd cylinder 47, the 3rd free bearing 48, described hydraulic cylinder 41 is provided with piston rod, described 3rd quantitative cylinder 44 is provided with the 3rd quantitative cylinder piston, described 3rd triple valve 45 is provided with the second valve connecting lever 451, and described 3rd cylinder 47 is provided with the 3rd cylinder output shaft, described 3rd top board 42 is fixedly connected with the second base plate 308 by 4 the 3rd columns 46, described hydraulic cylinder 41 is fixedly installed on the 3rd top board 42, described piston rod is fixedly connected with the second depression bar 43, described second depression bar 43 is fixedly connected with the 3rd quantitative cylinder piston, described 3rd quantitative cylinder 44 is fixedly installed on the 3rd triple valve 45, described 3rd triple valve 45 is fixedly installed on the second base plate 308, described 3rd free bearing 48 is fixedly installed in the 3rd top board 42 times, described 3rd free bearing 48 and the 3rd cylinder 47 hinged, described 3rd cylinder output shaft and the second valve connecting lever 451 are rotationally connected.The other end exit seal of described mixing tube 2 is communicated in the entrance of the 3rd triple valve 45.Described hydraulic cylinder 41 is oil cylinder.

Particularly, as shown in Fig. 1 and Fig. 9, described pearl cage hybrid channel assembly 5 comprises the first pearl cage hybrid channel, pearl cage hybrid channel 51, second 51, the inlet seal of described first pearl cage hybrid channel 51 is communicated in the outlet of the 3rd triple valve 45, and the exit seal of described first pearl cage hybrid channel 51 is communicated in the entrance of the second pearl cage hybrid channel 52.

Preferably, as shown in Fig. 1 and Fig. 9, the colored colour mixer of described glass cement also comprises discharging pipeline assembly 6, frame 7, the exit seal of described mixing output device 4 is communicated in the entrance of pearl cage hybrid channel assembly 5, the exit seal of described pearl cage hybrid channel assembly 5 is communicated in the entrance of discharging pipeline assembly 6, and pigment flows out from the outlet of discharging pipeline assembly 6.Described discharging pipeline assembly 6 comprises plastic emitting valve adapter 61, threeway manual ball valve 62, two-way manual ball valve 63, goes out sebific duct 64, the inlet seal of described plastic emitting valve adapter 61 is communicated in the outlet of the second pearl cage hybrid channel 52, the inlet seal of described threeway manual ball valve 62 is communicated in the outlet of plastic emitting valve adapter 61, the entrance of described two-way manual ball valve 63 is communicated in the outlet of threeway manual ball valve 62 by outer tooth joint sealing, described in go out sebific duct 64 entrance be communicated in the outlet of two-way manual ball valve 63 by outer tooth joint sealing.Described first base plate 122, second base plate 308 is fixedly installed in frame 7 respectively.

The pigment feeder assembly 11 of above embodiment is 6 groups, and in fact when assembling the utility model, according to reality toning situation, pigment feeder assembly 11 is more than 1 group.

The utility model also comprises hydraulic control system, atmospheric control, computerized control system, described hydraulic control system is for controlling the work of described hydraulic cylinder 41, described atmospheric control is for controlling the work of described 6 the first cylinder 1112, second cylinders 310, the 3rd cylinder 47, and described computerized control system is for controlling the work of described hydraulic control system, atmospheric control, 6 the first servomotor 1101, second servomotors 301.

Operation principle of the present utility model: the pigment of different colours enters in 6 first quantitative cylinders 1110 through the entrance of the first triple valve 1111 under the effect of external equipment, enters in the second quantitative cylinder 306 under the effect of glass cement external equipment through the entrance of the second triple valve 307, the outlet of 6 the first triple valves 1111 is opened in described 6 the first cylinder 1112 work, close the entrance of 6 the first triple valves 1111, simultaneously, described 6 the first servomotors 1101 work and carry the pigment of a certain amount of different colours to enter in mixing tube 2 respectively by the check valve of bar 6 line end by 6 first quantitative cylinder pistons, simultaneously, described second cylinder 310 is worked and is opened the outlet of the second triple valve 307 by the first valve connecting lever 3071, close the entrance of the second triple valve 307, simultaneously, described second servomotor 301 work by the second quantitative cylinder piston carry fully mix with the pigment entered in a certain amount of glass cement to mixing tube 2 after enter in the 3rd quantitative cylinder 44 through the entrance of the 3rd triple valve 45, then, described 3rd cylinder 47 is worked and is opened the outlet of the 3rd triple valve 45 by the second valve connecting lever 451, close the entrance of the 3rd triple valve 45, then, hydraulic cylinder 41 works and carries a certain amount of toner pigment successively behind the first pearl cage hybrid channel, pearl cage hybrid channel 51, second 52 fully mixing by the 3rd quantitative cylinder piston, then through plastic emitting valve adapter 61, threeway manual ball valve 62, two-way manual ball valve 63, go out sebific duct 64 and flow out.

The utility model has the following advantages compared with the cost of traditional mode of production, sees the following form:

The utility model adopts computerized color matching, arranges in pairs or groups flexibly, multiple color mixed function, and the color can arranged in pairs or groups out required for any one, makes glass cement product quality have more guarantee; Can determine according to user's consumption demand, how much not affect by order, at any time can shipment, reduce quantity in stock; Simple operation, stability is high, omits loaded down with trivial details manual procedures, not by interference from human factor; Production capacity is high, and production capacity is up to 2.5 tons/hour, and annual raising output 18000 tons, compares other product yields similar and recall 3 times; Reduce the number of turnover of material, reduce composite loss (as: base-material, storage tank, non-conservation tank.Aluminium bag etc.); The difficult problems such as solution glass cement is wide in variety, and class is many, and labour intensity is large.

The utility model advantage is, the various pigment being used for mixing colours are fed through described mixing tube 2 through described pigment feeder group 1 and carry from described glass cement quantitative conveyer 3 the quantitative glass cement of coming to carry out mixing to mix colours by the utility model, the stained glass glue mixed after having mixed colours enters in described mixing output device 4, and described mixing output device 4 outwards exports stained glass glue through described pearl cage hybrid channel assembly 5.The utility model achieves automatic color regulating, and production efficiency is high, and output is high, and loss is few, and cost is low, and not by the impact that order volume is how many.

Above content is in conjunction with concrete preferred embodiment further detailed description of the utility model, can not assert that concrete enforcement of the present utility model is confined to these explanations.For the utility model person of an ordinary skill in the technical field, under the prerequisite that glue is not conceived from the utility model, some simple deduction or replace can also be made, all should be considered as belonging to protection domain of the present utility model.

Claims (10)

1. the colored colour mixer of glass cement, it is characterized in that: comprise pigment feeder group (1), mixing tube (2), glass cement quantitative conveyer (3), mixing output device (4), pearl cage hybrid channel assembly (5), be fed through described mixing tube (2) for the various pigment of mixing colours through described pigment feeder group (1) and carry from described glass cement quantitative conveyer (3) the quantitative glass cement of coming to carry out mixing to mix colours, the stained glass glue mixed after having mixed colours enters in described mixing output device (4), described mixing output device (4) outwards exports stained glass glue through described pearl cage hybrid channel assembly (5).

2. the colored colour mixer of glass cement as claimed in claim 1, it is characterized in that: described pigment feeder group (1) comprises several pigment feeder assemblies (11), the first supporting mechanism (12), described pigment feeder assembly (11) is installed on the first supporting mechanism (12), and several pigment feeder assemblies (11) described carry pigment to described mixing tube (2) simultaneously.

3. the colored colour mixer of glass cement as claimed in claim 1, it is characterized in that: described glass cement quantitative conveyer (3) comprises the second servomotor (301), second top board (302), second screw mandrel (303), second feed screw nut (304), second feed screw nut's adapter sleeve (305), second quantitative cylinder (306), second triple valve (307), second base plate (308), second column (309), second cylinder (310), second free bearing (311), described second servomotor (301) is provided with the second servo motor output shaft, described second quantitative cylinder (306) is provided with the second quantitative cylinder piston, described second triple valve (307) is provided with the first valve connecting lever (3071), described second cylinder (310) is provided with the second cylinder output shaft, described second top board (302) is fixedly connected with the second base plate (308) by 4 second columns (309), described second servomotor (301) is installed on the second top board (302), described second servo motor output shaft is fixedly connected with the second screw mandrel (303), described second screw mandrel (303) and the second feed screw nut (304) are in transmission connection, described second feed screw nut (304) is connected with the second quantitative cylinder piston by second feed screw nut's adapter sleeve (305), described second quantitative cylinder (306) is installed on the second triple valve (307), described second triple valve (307) is installed on the second base plate (308), under described second free bearing (311) is installed on the second top board (302), described second cylinder (310) is hinged with the second free bearing (311), described second cylinder output shaft and the first valve connecting lever (3071) are rotationally connected.

4. the colored colour mixer of glass cement as claimed in claim 1, it is characterized in that: described mixing output device (4) comprises hydraulic cylinder (41), 3rd top board (42), second depression bar (43), 3rd quantitative cylinder (44), 3rd triple valve (45), 3rd column (46), 3rd cylinder (47), 3rd free bearing (48), described hydraulic cylinder (41) is provided with piston rod, described 3rd quantitative cylinder (44) is provided with the 3rd quantitative cylinder piston, described 3rd triple valve (45) is provided with the second valve connecting lever (451), described 3rd cylinder (47) is provided with the 3rd cylinder output shaft, described 3rd top board (42) is fixedly connected with the second base plate (308) by 4 the 3rd columns (46), described hydraulic cylinder (41) is installed on the 3rd top board (42), described piston rod is fixedly connected with the second depression bar (43), described second depression bar (43) is connected with the 3rd quantitative cylinder piston, described 3rd quantitative cylinder (44) is installed on the 3rd triple valve (45), described 3rd triple valve (45) is installed on the second base plate (308), under described 3rd free bearing (48) is installed on the 3rd top board (42), described 3rd free bearing (48) is hinged with the 3rd cylinder (47), described 3rd cylinder output shaft and the second valve connecting lever (451) are rotationally connected.

5. the colored colour mixer of glass cement as claimed in claim 1, it is characterized in that: described pearl cage hybrid channel assembly (5) comprises the first pearl cage hybrid channel (51), the second pearl cage hybrid channel (52), the inlet seal of described first pearl cage hybrid channel (51) is communicated in the outlet of mixing output device (4), and the exit seal of described first pearl cage hybrid channel (51) is communicated in the entrance of the second pearl cage hybrid channel (52).

6. the colored colour mixer of the glass cement as described in any one of claim 1 to 5, it is characterized in that: the colored colour mixer of described glass cement also comprises discharging pipeline assembly (6), described discharging pipeline assembly (6) comprises plastic emitting valve adapter (61), threeway manual ball valve (62), two-way manual ball valve (63), go out sebific duct (64), the inlet seal of described plastic emitting valve adapter (61) is communicated in the outlet of the second pearl cage hybrid channel (52), the inlet seal of described threeway manual ball valve (62) is communicated in the outlet of plastic emitting valve adapter (61), the entrance of described two-way manual ball valve (63) is communicated in the outlet of threeway manual ball valve (62) by outer tooth joint sealing, described go out the entrance of sebific duct (64) be communicated in the outlet of two-way manual ball valve (63) by outer tooth joint sealing.

7. the colored colour mixer of glass cement as claimed in claim 2, it is characterized in that: described first supporting mechanism (12) comprises the first top board (121), the first base plate (122), the first column (123), linear bearing installing plate (124), connecting plate (125), described first top board (121) is fixedly connected with the first base plate (122) by 6 first columns (123), under described linear bearing installing plate (124) is fixedly installed in the first top board (121) by 4 pieces of connecting plates (125).

8. the colored colour mixer of glass cement as claimed in claim 7, it is characterized in that: described pigment feeder assembly (11) comprises the first servomotor (1101), first servomotor installing plate (1102), side plate (1103), backing plate (1104), first screw mandrel (1105), first feed screw nut (1106), first feed screw nut's adapter sleeve (1107), first depression bar (1108), linear bearing (1109), first quantitative cylinder (1110), first triple valve (1111), first cylinder (1112), first cylinder mount pad (1113), connecting rod (1114), described first servomotor (1101) is provided with the first servo motor output shaft, described first cylinder (1112) is provided with the first cylinder output shaft, described first quantitative cylinder (1110) is provided with the first quantitative cylinder piston, described first servomotor installing plate (1102) is fixedly installed on backing plate (1104) by 2 pieces of side plates (1103), described backing plate (1104) is fixedly installed on the first top board (121), described linear bearing (1109) is fixedly installed in linear bearing installing plate (124), described first servomotor (1101) is fixedly installed on the first servomotor installing plate (1102), described first servo motor output shaft is fixedly connected with the first screw mandrel (1105), described first screw mandrel (1105) and the first feed screw nut (1106) are in transmission connection, described first feed screw nut's adapter sleeve (1107) is fixedly connected with the first feed screw nut (1106), described first depression bar (1108) slides up and down with linear bearing (1109) and is connected, described first depression bar (1108) is connected with the first quantitative cylinder piston, described first quantitative cylinder (1110) is installed on the first triple valve (1111), described first triple valve (1111) is installed on the first base plate (122), described first cylinder (1112) is fixedly installed in the first triple valve (1111) side by the first cylinder mount pad (1113), described first cylinder output shaft is fixedly connected with by the pull bar of connecting rod (1114) with the first triple valve (1111), described first triple valve (1111) to be sealed with mixing tube (2) by pipeline and is communicated with.

9. the colored colour mixer of glass cement as claimed in claim 4, is characterized in that: described hydraulic cylinder (41) is oil cylinder.

10. the colored colour mixer of glass cement as claimed in claim 8, is characterized in that: described first triple valve (1111) is sealed by pipeline and mixing tube (2) and is communicated with junction and is provided with check valve.