CN213528640U - Reation kettle convenient to detect dyestuff colour - Google Patents

Abstract

The utility model relates to a reation kettle convenient to detect dyestuff colour, it includes the support frame and a jar body, jar body and support frame fixed connection, and jar body is in vertical state, jar internal extraction stirring subassembly that is used for stirring the dyestuff and absorbs the dyestuff, jar external being provided with drives extraction stirring subassembly pivoted power component and being used for from jar internal extraction subassembly of drawing the dyestuff, extraction stirring subassembly, be provided with between power component and the extraction subassembly and carry out the intercommunication drive assembly that feeds through with it, this application has the effect that improves the degree of accuracy that the dyestuff detected.

Description

Reation kettle convenient to detect dyestuff colour

Technical Field

The application relates to the technical field of reaction kettles, in particular to a reaction kettle convenient for detecting dye colors.

Background

The broad understanding of the reaction kettle is that the reaction kettle is a container for physical or chemical reaction, the heating, evaporation, cooling and low-speed and high-speed mixing functions required by the process are realized by the structural design and parameter configuration of the container, the reaction kettle is widely applied to the fields of petroleum, chemical engineering, rubber, pesticides, dyes, medicines and foods, when the reaction kettle is applied to the field of dyes, the reaction kettle is generally used for uniformly mixing the dyes, and when the reaction kettle is used, a part of the dyes in the reaction kettle is required to be taken out for comparison and detection, so that whether the dyes are required for composite production is determined.

Current reation kettle is including a jar body, and jar body intercommunication has feed liquor pipe and drain pipe, and jar internal stirring subassembly that is used for the dyestuff mixing that is provided with, and the bottom intercommunication of jar body has and is used for unloading pipe and unloading valve, when needs examine the dyestuff in the reation kettle, opens the unloading valve, and the dyestuff in the jar body passes through the unloading outflow to the completion is to the inspection of dyestuff colour.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: when taking a sample to the dyestuff in the reation kettle, can only detect the dyestuff of reation kettle bottom, can not detect the dyestuff of different levels in the reation kettle, and then can not guarantee the degree of accuracy of the detection of dyestuff.

SUMMERY OF THE UTILITY MODEL

In order to improve the degree of accuracy that the dyestuff detected, this application provides a reation kettle convenient to detect dyestuff colour.

The application provides a reation kettle convenient to detect dyestuff colour adopts following technical scheme: the utility model provides a reation kettle convenient to detect dyestuff colour, includes the support frame and a jar body, jar body and support frame fixed connection, and jar body is in vertical state, and jar internal extraction stirring subassembly that is used for stirring the dyestuff and absorbs the dyestuff that is provided with, jar external is provided with to drive extraction stirring subassembly pivoted power component and is used for following the internal extraction subassembly that extracts the dyestuff of jar, is provided with between extraction stirring subassembly, power component and the extraction subassembly and carries out the intercommunication drive assembly that feeds through it.

Through adopting above-mentioned technical scheme, before the dyestuff colour to the internal jar is examined, start power component, power component drives the extraction stirring subassembly and with the internal dyestuff mixing of jar, power component is in operating condition always after the mixing, start the extraction subassembly this moment, the extraction subassembly is sampled through the dyestuff of extraction stirring subassembly to the internal mixing of jar, extraction subassembly and power component simultaneous workings can be realized to the setting of intercommunication drive assembly, the unanimous blending state that is in of dyestuff has been guaranteed in the setting of intercommunication subassembly, the setting of extraction stirring subassembly simultaneously can be realized carrying out the extraction of different levels to the liquid of the internal jar, and then reached the effect of guaranteeing the dyestuff accuracy of examination.

Optionally, the extraction stirring subassembly includes the conveying pipe, stirring pipe and stirring vane, the vertical setting of conveying pipe, conveying pipe one end runs through the jar body and is connected with jar rotation, the conveying pipe is located jar internal one end and is encapsulated situation, the stirring pipe is provided with many, the perpendicular intercommunication of stirring pipe is at the circumference outer wall of conveying pipe, and the stirring pipe is along the circumference lateral wall equidistance evenly distributed of conveying pipe, the fixed one end of keeping away from the conveying pipe at the stirring pipe of stirring vane of intercommunication, stirring vane is hollow platelike structure, and stirring vane has seted up a plurality of intercommunicating pores, conveying pipe and power component intercommunication.

Through adopting above-mentioned technical scheme, when using the extraction stirring subassembly, power component drives the conveying pipe, stirring pipe and stirring vane rotate, realize stirring the internal dyestuff of jar, start the extraction subassembly this moment, the internal dyestuff of jar passes through the intercommunicating pore streamline stirring pipe, converge to the conveying pipe from the stirring pipe again, the setting of extraction stirring subassembly can realize that it homogenizes the dyestuff, can also realize simultaneously that it draws the dyestuff at the internal multi-level of jar, the degree of accuracy that the dyestuff detected has been improved.

Optionally, the power assembly comprises a power motor and a transmission sleeve, the power motor is fixedly connected with the tank body, the transmission sleeve is fixedly connected with an output shaft of the power motor, and the transmission sleeve drives the conveying pipe to rotate through communicating with the transmission assembly.

Through adopting above-mentioned technical scheme, power component starts the moving motor when using, and power motor's output shaft drives the transmission sleeve and rotates, and transmission sleeve's setting has realized being connected with intercommunication transmission component, and whole reation kettle only need use conveying assembly just can accomplish the use, has reached the effect that has reduced staff stability in use.

Optionally, the intercommunication drive assembly includes the adapter, communicating pipe, the stop valve, rotate sealing member and connecting rod, adapter one end is pegged graft in the conveyer, the one end that the conveyer was kept away from to the adapter is pegged graft in transmission sleeve, rotate sealing member and rotate sealing connection adapter, conveyer and transmission sleeve, communicating pipe and adapter intercommunication, the stop valve communicates in the one end of keeping away from the adapter communicating pipe, the connecting rod is located the adapter, and connecting rod fixed connection transmission sleeve and conveyer.

Through adopting above-mentioned technical scheme, when power component drives extraction stirring subassembly acting, relative rotation takes place for transmission sleeve and intercommunication sleeve pipe, the setting of connecting rod realizes that transmission sleeve drives the conveying pipe and rotates simultaneously, the setting of rotation sealing member has realized the rotation of takeover and communicating pipe, the motion requirement of power component to extraction stirring subassembly has been satisfied, when extraction subassembly acting, guarantee that the backstop valve is in the open mode, the rotation sealing member, the requirement of extraction subassembly to extraction stirring subassembly has been satisfied in the setting of takeover and communicating pipe, the requirement of extraction subassembly and power component to extraction stirring subassembly has been satisfied in the setting of intercommunication transmission subassembly, and then make things convenient for the staff to examine from jar internal extraction dyestuff.

Optionally, the drawing assembly includes a liquid pump and a liquid outlet pipe, the liquid inlet end of the liquid pump is fixedly communicated with the communicating pipe, and the liquid outlet pipe is communicated with the liquid outlet end of the liquid pump.

Through adopting above-mentioned technical scheme, when using the extraction subassembly to extract the internal dyestuff of jar, guarantee that the backstop valve is in the open mode, start the drawing liquid pump, the drawing liquid pump flows through the drain pipe after taking the internal dyestuff of jar out, and the setting of drain pipe can make things convenient for the staff to collect the dyestuff.

Optionally, one end of the communicating pipe, which is far away from the stop valve, is communicated with an inflation and drainage assembly, the inflation and drainage assembly comprises an inflation pipe, an air stop valve and an air pump, the inflation pipe is communicated with the air pump and the communicating pipe, and the air stop valve is communicated with one end of the inflation pipe, which is close to the communicating pipe.

Through adopting above-mentioned technical scheme, when needs carry out the secondary inspection to the dyestuff in the jar body, communicating pipe, stirred tube and accept intraductal dyestuff that has been full of before the inspection, close the stop valve this moment, open the gas stop valve, start the air pump simultaneously, the air pump is to jar internal packing a certain amount of gas, and then the realization will communicate pipe, accept intraductal dyestuff discharge of pipe and stirred tube, has reached the effect of guaranteeing the dyestuff and detect the accuracy.

Optionally, the rotary seal is a sealed bearing.

Through adopting above-mentioned technical scheme, sealed bearing's setting can realize that the adapter can take place to rotate between adapting pipe and communicating pipe and the transmission sleeve, has still guaranteed adapting pipe, communicating pipe and transmission sleeve's leakproofness simultaneously, and sealed bearing has good wear resistance for other seal assembly, and then has reached the effect of guaranteeing reation kettle stability in use.

Optionally, the stirring blade is of an arc-shaped plate-shaped structure.

Through adopting above-mentioned technical scheme, arc plate-shaped structure's stirring vane has increased the stirring homogeneity of extraction stirring subassembly to jar internal dyestuff, and stirring vane is arc plate-shaped simultaneously, has increased the area of contact with the dyestuff, and then has improved the homogeneity that the dyestuff was gathered, and then has guaranteed the accuracy of dyestuff inspection.

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

1. the stirring and extracting assembly realizes the purpose of multi-level sampling of the dye in the tank body, so that the accuracy of dye detection is improved;

2. the effect that the power assembly and the extraction assembly apply work to the extraction stirring assembly at the same time can be realized by the arrangement of the communication transmission assembly, so that the effect of facilitating the use of workers is further achieved;

3. aerify flowing back subassembly set up can try to extract the effect that the dyestuff in stirring subassembly and the intercommunication drive assembly was changed, and then improved the accuracy of dyestuff sample detection data.

Drawings

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

FIG. 2 is a partial cross-sectional view of the drawing stirring assembly;

FIG. 3 is a partial cutaway view showing the communication transmission assembly.

Description of reference numerals: 1. a support frame; 2. a tank body; 3. extracting and stirring components; 31. a transfer tube; 32. a stirring pipe; 33. a stirring blade; 331. a communicating hole; 4. a power assembly; 41. a power motor; 42. a drive sleeve; 5. an extraction assembly; 51. a liquid pump; 52. a liquid outlet pipe; 6. the transmission component is communicated; 61. a bearing pipe; 62. a communicating pipe; 63. a stop valve; 64. rotating the seal; 65. a connecting rod; 7. an inflation and drainage assembly; 71. an inflation tube; 72. a gas check valve; 73. an air pump.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses reation kettle convenient to detect dyestuff colour.

Referring to fig. 1 and 2, the reaction kettle convenient for detecting the color of the dye comprises a support frame 1 and a tank body 2, the tank body 2 is fixedly connected with the support frame 1, an extraction stirring assembly 3 which can stir the dye in the tank body 2 and can communicate the dye in the tank body 2 with the outside is arranged in the tank body 2, a power assembly 4 which provides power for the extraction stirring assembly 3 to stir the material in the tank body 2 and an extraction assembly 5 which extracts the dye through the extraction stirring assembly 3 are arranged outside the tank body 2, a communication transmission assembly 6 which meets the motion working characteristics of the extraction assembly 5, the power assembly 4 and the extraction stirring assembly 3 and is connected with each other is arranged between the extraction assembly 5 and the extraction stirring assembly 3, when in use, the power assembly 4 is started, the power assembly 4 drives the extraction stirring assembly 3 to stir the dye in the tank body 2 uniformly, the extraction assembly 5 is started at the same time, the extraction assembly 5 is matched with the extraction stirring assembly 3, the effect that multi-level detection was carried out to the dyestuff in the jar body 2 has been realized to the setting up of extraction stirring subassembly 3 simultaneously, and then has guaranteed the effect of dyestuff colour detection data accuracy.

Referring to fig. 1 and 2, the extracting and stirring assembly 3 includes a conveying pipe 31, a stirring pipe 32 and a stirring blade 33, one end of the conveying pipe 31 penetrates through the tank body 2 and is connected with the tank body 2 in a sealed and rotating manner, the remaining end of the conveying pipe 31 is located in the tank body 2, one end of the conveying pipe 31 located in the tank body 2 is in a sealed state, the stirring pipe 32 is fixedly communicated with the circumferential outer wall of the conveying pipe 31, the stirring pipe 32 is equidistantly distributed on the circumferential outer wall of the conveying pipe 31, the stirring blade 33 is fixedly communicated with one end of the stirring pipe 32 far away from the conveying pipe 31, the stirring blade 33 is of a hollow arc plate-shaped structure, and the outer wall of the stirring blade 33 is; the power assembly 4 comprises a power motor 41 transmission sleeve 42, the power motor 41 is fixedly connected with the tank body 2, an output shaft of the power motor 41 is fixedly connected with the transmission sleeve 42, the output shaft of the power motor 41 drives the transmission sleeve 42 to rotate along the central line of the length direction of the transmission sleeve, the communication transmission assembly 6 is positioned between the conveying pipe 31 and the transmission sleeve 42, and the effect that the power assembly 4 drives the extraction stirring assembly 3 to stir the dye in the tank body 2 is achieved. When using power component 4 and extraction stirring subassembly 3, start power motor 41, power motor 41's output shaft drives transmission sleeve 42 and rotates, and transmission sleeve 42's kinetic energy is through the transmission of intercommunication transmission subassembly 6 to conveying pipe 31, and then realizes driving conveying pipe 31 and rotate along its length direction's central line, and stirring pipe 32 and stirring vane 33 that are connected with conveying pipe 31 have simultaneously realized carrying out the effect of stirring to the dyestuff in the jar body 2.

Referring to fig. 2 and 3, the drawing assembly 5 includes a drawing pump 51 and a liquid outlet pipe 52, the liquid outlet pipe 52 is communicated with a liquid outlet end of the drawing pump 51, the communicating transmission assembly 6 includes a receiving pipe 61, a communicating pipe 62, a stop valve 63, a rotary sealing member 64 and a connecting rod 65, the rotary sealing member 64 is a sealing bearing, one end of the receiving pipe 61 is inserted into the transmission sleeve 42 and is rotatably connected with the transmission sleeve 42, one end of the receiving pipe 61 far away from the transmission sleeve 42 is inserted into the transmission pipe 31 and is rotatably connected with the transmission pipe 31, the rotary sealing member 64 is sleeved on two ends of the receiving pipe 61 and realizes the rotary sealing connection of the receiving pipe 61, the transmission sleeve 42 and the transmission pipe 31, the connecting rod 65 is located in the receiving pipe 61, one end of the connecting rod 65 is fixedly connected with an inner wall of the transmission sleeve 42, the remaining end is fixedly connected with an inner wall of the transmission pipe 31, and the connecting, the communicating pipe 62 is fixedly communicated with the circumferential outer wall of the adapting pipe 61, the stop valve 63 is communicated with one end of the communicating pipe 62 far away from the adapting pipe 61, the liquid-extracting pump 51 is communicated with one end of the communicating pipe 62 far away from the adapting pipe 61, before the color of the dye in the tank body 2 is inspected, the power motor 41 is started, the output shaft of the power motor 41 drives the transmission sleeve 42 to rotate, the transmission sleeve 42 drives the conveying pipe 31 to rotate through a connecting rod, so that the dye in the tank body 2 is uniformly mixed, meanwhile, the adapting pipe 61 and the communicating pipe 62 are in a relative rotation state through the arrangement of the rotary sealing element 64, when the color of the dye is inspected, the liquid-extracting pump 51 is started, the dye in the tank body 2 flows to the stirring pipe 32 through the communicating hole 331, then is collected to the conveying pipe 31, finally flows to the liquid-extracting pump 51 through the adapting pipe 61 and the communicating pipe 62, meanwhile, the dyes at different levels in the tank body 2 are extracted, and the effect of improving the accuracy of dye color detection data is further realized.

Referring to fig. 2 and 3, one end of the communication pipe 62 far from the stop valve 63 is communicated with an inflation and drainage assembly 7, the inflation and drainage assembly 7 comprises an inflation pipe 71, an air stop valve 72 and an air pump 73, the inflation pipe 71 is fixedly communicated with the communication pipe 62, one end of the inflation pipe 71 far from the communication pipe 62 is communicated with the air pump 73, the air stop valve 72 is communicated with one end of the inflation pipe 71 near to the communication pipe 62, when multiple detections are required for the color of the dye in the tank body 2, the stop valve 63 is closed, the air stop valve 72 is started at the same time, the air pump 73 is started at the moment, the dye remaining in the extraction stirring assembly 3, the receiving pipe 61 and the communication pipe 62 is discharged by the air pump 73, the arrangement of the inflation and drainage assembly 7 can realize multiple sampling detections for the dye in the tank body 2, and the accuracy.

The implementation principle of this application embodiment reation kettle convenient to detect dyestuff colour does: before dye color to in the reation kettle detects, start motor 41, motor 41 drives extraction stirring subassembly 3 through connecting rod 65 and rotates, when needs carry out the sample detection to the dyestuff in the jar body 2, start and open check valve 63 and start drawing liquid pump 51, the dyestuff is through extracting stirring subassembly 3 transmission to accepting pipe 61 and then convey to communicating pipe 62 in, discharge through drain pipe 52 at last, realize that the staff detects the dyestuff colour, when needs carry out a lot of to the dyestuff in the jar body 2 and detect time measuring, close check valve 63, open air stop valve 72, start air pump 73 simultaneously, air pump 73 will persist at extraction stirring subassembly 3, the dyestuff discharge in accepting pipe 61 and communicating pipe 62, conveniently extract subassembly 5 and extract new dyestuff and inspect, and then reached the effect that improves dyestuff colour and detect accurate data accuracy.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the 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.

Claims (8)

1. The utility model provides a reation kettle convenient to detect dyestuff colour, includes support frame (1) and jar body (2), jar body (2) and support frame (1) fixed connection, and jar body (2) is in vertical state, its characterized in that: be provided with in jar body (2) and be used for stirring the dyestuff extraction stirring subassembly (3) of absorbing the dyestuff, jar body (2) are provided with outside the drive and draw stirring subassembly (3) pivoted power component (4) and be used for drawing extraction subassembly (5) of dyestuff in jar body (2), are provided with between extraction stirring subassembly (3), power component (4) and the extraction subassembly (5) and carry out the intercommunication drive assembly (6) that communicate with it.

2. The reaction kettle of claim 1, wherein the reaction kettle is adapted to facilitate color detection of dyes, and comprises: extraction stirring subassembly (3) are including conveying pipe (31), stirring pipe (32) and stirring vane (33), conveying pipe (31) vertical setting, conveying pipe (31) one end runs through jar body (2) and rotates with jar body (2) to be connected, conveying pipe (31) are located the one end of jar body (2) and are encapsulated situation, stirring pipe (32) are provided with many, stirring pipe (32) perpendicular intercommunication is at the circumference outer wall of conveying pipe (31), and stirring pipe (32) are along the circumference lateral wall equidistance evenly distributed of conveying pipe (31), the one end of conveying pipe (31) is kept away from in stirring pipe (32) to fixed intercommunication of stirring vane (33), stirring vane (33) are hollow plate-like structure, and stirring vane (33) have seted up a plurality of intercommunicating pores (331), conveying pipe (31) and power component (4) intercommunication.

3. The reaction kettle of claim 2, wherein the reaction kettle is adapted to facilitate color detection of dyes, and comprises: the power assembly (4) comprises a power motor (41) and a transmission sleeve (42), the power motor (41) is fixedly connected with the tank body (2), the transmission sleeve (42) is fixedly connected with an output shaft of the power motor (41), and the transmission sleeve (42) drives the conveying pipe (31) to rotate through the communication transmission assembly (6).

4. The reaction kettle of claim 3, wherein the reaction kettle is characterized in that: the communicating transmission assembly (6) comprises a bearing pipe (61), a communicating pipe (62), a stop valve (63), a rotating sealing piece (64) and a connecting rod (65), one end of the bearing pipe (61) is inserted in the conveying pipe (31), one end of the bearing pipe (61), which is far away from the conveying pipe (31), is inserted in the transmission sleeve (42), the rotating sealing piece (64) rotates to be connected with the bearing pipe (61) in a sealing mode, the conveying pipe (31) and the transmission sleeve (42), the communicating pipe (62) is communicated with the bearing pipe (61), the stop valve (63) is communicated with one end, which is far away from the bearing pipe (61), of the communicating pipe (62), the connecting rod (65) is located in the bearing pipe (61), and the connecting rod (65) is fixedly connected with the transmission sleeve (42) and the conveying pipe (31).

5. The reaction kettle of claim 4, wherein the reaction kettle is characterized in that: the drawing assembly (5) comprises a liquid drawing pump (51) and a liquid outlet pipe (52), the liquid inlet end of the liquid drawing pump (51) is fixedly communicated with the communicating pipe (62), and the liquid outlet pipe (52) is communicated with the liquid outlet end of the liquid drawing pump (51).

6. The reaction kettle of claim 4, wherein the reaction kettle is characterized in that: one end, far away from the stop valve (63), of the communicating pipe (62) is communicated with an inflation and drainage assembly (7), the inflation and drainage assembly (7) comprises an inflation pipe (71), an inflation stop valve (72) and an air pump (73), the inflation pipe (71) is communicated with the air pump (73) and the communicating pipe (62), and the inflation stop valve (72) is communicated with one end, close to the communicating pipe (62), of the inflation pipe (71).

7. The reaction kettle of claim 4, wherein the reaction kettle is characterized in that: the rotary sealing element (64) is a sealing bearing.

8. The reaction kettle of claim 2, wherein the reaction kettle is adapted to facilitate color detection of dyes, and comprises: the stirring blade (33) is of an arc-shaped plate-shaped structure.

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