CN216093326U - Large capacity titanium sponge granule compounding device - Google Patents

Abstract

The utility model discloses a high-capacity titanium sponge particle mixing device, and belongs to the field of metal smelting. The problems of quality fluctuation caused by different heats of sponge titanium particles and poor product quality stability in the prior art are solved. The tank comprises a base and a tank body, wherein a feed inlet and a discharge outlet are formed in the tank body, a tank body support and a power support are arranged on the base, one end of the tank body is connected with the tank body support, the other end of the tank body is connected with the power support, a power device is arranged on the power support and used for driving the tank body to rotate, a support frame is further arranged on the base, a plurality of support rollers are arranged on the support frame and used for supporting the middle part of the tank body. According to the utility model, the large-capacity mixing device can be used for mixing the titanium sponge particles produced by a plurality of furnaces, so that quality fluctuation caused by different furnaces can be avoided, and the stability of product quality is improved.

Description

Large capacity titanium sponge granule compounding device

Technical Field

The utility model belongs to the field of metal smelting, and particularly relates to a high-capacity titanium sponge particle mixing device.

Background

At present, titanium ingots produced by ingot manufacturers are getting bigger and bigger in order to obtain titanium ingots with high component consistency, but in the production process of titanium sponge, the size of a titanium lump is limited by a reactor and a production process, and one titanium lump cannot meet the requirement of producing one titanium ingot, so that before producing large-size titanium ingots, titanium sponge particles of different batches need to be uniformly mixed and then an electrode needs to be die-cast. Meanwhile, in the production process of the titanium sponge, the adopted intermittent process has the defects that the quality grades of the titanium sponge produced by different furnaces are different due to the problem of the process control level, the price difference of different grades in the market is large, and complementary material mixing can be carried out according to the difference of degradation factors of different furnaces to achieve the maximum benefit, so that the grade of the titanium sponge is improved. However, in the prior art, the mixing device for the titanium sponge particles is small, and only a small number of batches of titanium sponge particles can be mixed at a time, so that quality fluctuation is easily caused, and the stability of product quality is affected.

In the prior art, in order to inspect the grade of the mixed titanium sponge, the mixed titanium sponge particles need to be sampled, and the traditional sampling method generally adopts manual sampling at a discharge port of a mixing device, so that a large amount of manpower is consumed.

Therefore, a new material mixing device is needed to be developed for the purpose of mixing materials in large batch and improving the product grade.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems in the prior art, the utility model provides a high-capacity titanium sponge particle mixing device, which aims to: the quality stability of the titanium sponge is improved, the quality fluctuation is reduced, the sampling efficiency is improved, and the manpower and material resources are saved.

The technical scheme adopted by the utility model is as follows:

the utility model provides a large capacity titanium sponge granule compounding device, includes the base and a jar body, is provided with feed inlet and discharge gate on the jar body, be provided with a jar body support and power support on the base, jar body one end and a jar body leg joint, the other end and power leg joint, be provided with power device on the power support, power device is used for the rotatory of the drive jar body, still be provided with the support frame on the base, be provided with the several backing roll on the support frame, the backing roll is used for the middle part of the support jar body.

Preferably, the supporting surface of support frame is the arc, and is the same with the radian of the jar body, the backing roll is equidistant to be installed on the supporting surface, just the axis of backing roll is parallel with the axis of the jar body.

Preferably, discharge gate below is provided with automatic sampling device, automatic sampling device includes the sampling device body, the top of sampling device body is provided with the technology inflow entrance, the below of sampling device body is provided with the funnel, the lower extreme of funnel is provided with the technology egress opening, the inside automatic sampling mechanism that is provided with of sampling device body, automatic sampling mechanism below is connected with the sample export.

Preferably, the automatic sampling mechanism includes the motor, the output shaft of motor has the transmission shaft, the lower extreme of transmission shaft is connected with the barrel, the side of barrel is connected with sampling funnel, sampling funnel communicates with the inside of barrel, the lower extreme and the sample outlet intercommunication of barrel.

Preferably, the sample outlet is connected with a sample discharging pipe, the top of the sample discharging pipe is provided with a rotary connecting piece, and the rotary connecting piece is connected with the barrel.

Preferably, the upper end of sample funnel is provided with the mounting panel, be provided with the bar hole on the mounting panel, the mounting panel has the bracing piece through bar hole bolted connection, the top of bracing piece is connected with the swash plate.

Preferably, be provided with the access hole on the lateral wall of sampling device body, be provided with the baffle on the access hole, baffle one end is articulated with the lateral wall of sampling device body, and the other end passes through the lateral wall fixed connection of hasp and sampling device body.

In summary, due to the adoption of the technical scheme, the utility model has the beneficial effects that:

1. according to the utility model, the large-capacity mixing device can be used for mixing the titanium sponge particles produced by a plurality of furnaces, so that quality fluctuation caused by different furnaces can be avoided, and the stability of product quality is improved.

2. According to the utility model, large-batch mixing is realized through the large-capacity mixing device, secondary mixing of downstream customers before ingot casting is omitted, and the production efficiency is improved;

3. according to the utility model, through the large-capacity mixing device, mixing can be carried out according to the complementarity of the degradation elements of different heats, so that the degradation elements are homogenized, the product grade is improved, and the benefit is increased.

4. The support frame and the support roll are arranged to support the middle part of the tank body, so that the tank body support and the power support are prevented from being deformed and damaged due to the fact that the tank body is too heavy, and the service life is prolonged.

5. The automatic sampler is arranged, so that automatic sampling can be performed at the discharge hole, and the labor input is reduced.

6. The utility model can adjust the sampling amount of the sampling device each time by moving the position of the supporting rod, and has strong adaptability.

Drawings

The utility model will now be described, by way of example, with reference to the accompanying drawings, in which:

FIG. 1 is a schematic diagram of the general structure of the present invention;

FIG. 2 is a schematic view of the construction of an automatic sampling device;

FIG. 3 is an internal structural view of the automatic sampling device;

fig. 4 is a schematic view showing the connection of the support rod, the inclined plate and the sampling funnel.

The device comprises a feed inlet, a discharge outlet, a tank body support, a base, a 5-power support, a 6-power device, a tank body, a 8-support frame, a 9-support roller, a 10-process flow inlet, a 11-process flow outlet, a 12-motor, a 13-baffle, a 14-lock catch, a 15-funnel, a 16-sample outlet, a 17-mounting frame, an 18-transmission shaft, a 19-cylinder body, a 20-sampling funnel, a 21-support rod, a 22-inclined plate, a 23-rotary connecting piece, a 24-sample discharge pipe and a 25-mounting plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all the embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present application without making any creative effort, shall fall within the protection scope of the present application.

The present invention is described in detail below with reference to fig. 1-4.

A large-capacity titanium sponge particle mixing device is shown in figure 1 and comprises a base 4 and a tank body 7, wherein a helical blade is arranged inside the tank body 7 and has the same structure as a stirring tank on a concrete stirring tank truck. Be provided with feed inlet 1 and discharge gate 2 on the jar body 7, be provided with a jar body support 3 and power support 5 on the base 4, 7 one end of the jar body is connected with a jar body support 3, and the other end is connected with power support 5, be provided with power device 6 on the power support 5, power device 6 is used for the drive jar body 7 rotatory, still be provided with support frame 8 on the base 4, be provided with several backing roll 9 on the support frame 8, backing roll 9 is used for supporting jar middle part of body 7. In this embodiment, the power device 6 is a motor, and drives the tank 7 to rotate through a gear.

In this embodiment, the holding surface of support frame 8 is the arc, and is the same with the radian of jar body 7, back-up roll 9 is equidistant to be installed on the holding surface, just the axis of back-up roll 9 is parallel with the axis of jar body 7, and back-up roll 9 frictional force is very little, does not influence the rotation of jar body 7.

In this embodiment, 2 belows in discharge gate are provided with automatic sampling device, automatic sampling device includes the sampling device body, and the sampling device body is installed on mounting bracket 17. The top of sampling device body is provided with technology inflow entrance 10, the below of sampling device body is provided with funnel 15, the lower extreme of funnel 15 is provided with technology egress 11, the inside automatic sampling mechanism that is provided with of sampling device body, automatic sampling mechanism below is connected with sample export 16.

In this embodiment, the automatic sampling mechanism includes motor 12, the output shaft of motor 12 is connected with transmission shaft 18, the lower extreme of transmission shaft 18 is connected with barrel 19, the side of barrel 19 is connected with sampling funnel 20, sampling funnel 20 communicates with the inside of barrel 19, the lower extreme and the sample export 16 intercommunication of barrel 19. When the sampling funnel 20 is rotated to the position below the process flow inlet 10, a part of the titanium sponge particles enter the sampling funnel 20, and one-time sampling is completed. In this embodiment, the motor 12 is a variable frequency motor, and is set to rotate three times per minute to complete three times of sampling.

The sample outlet 16 is connected with a sample discharging pipe 24, the top of the sample discharging pipe 24 is provided with a rotary connecting piece 23, and the rotary connecting piece 23 is connected with the cylinder 19. In this embodiment, the rotary connector 19 is a bearing.

The upper end of sampling funnel 20 is provided with mounting panel 25, be provided with the bar hole on the mounting panel 25, mounting panel 25 has bracing piece 21 through bar hole bolted connection, the top of bracing piece 21 is connected with swash plate 22. The titanium sponge particles fall from the process flow inlet 10, a part of the titanium sponge particles enter the sampling funnel 20 to finish sampling, and a part of the titanium sponge particles fall into the process flow outlet 11 below due to the blockage of the inclined plate 22. By adjusting the mounting position of the support rod 21 on the mounting plate 25, the amount of titanium sponge particles entering the sampling funnel 20 can be adjusted.

Be provided with the access hole on the lateral wall of sampling device body, be provided with baffle 13 on the access hole, baffle 13 one end is articulated with the lateral wall of sampling device body, and the other end passes through hasp 14 and the lateral wall fixed connection of sampling device body. The condition inside the automatic sampling device can be observed through the access hole or the automatic sampling device is overhauled in the working process. The top of the sampling device body is also provided with three identical access holes.

When the large-capacity titanium sponge particle mixing device is used, the method comprises the following operation steps: in titanium sponge granule compounding in-process, carry out preliminary chemical examination back with each heat product earlier, batch that the chemical examination result is close carries out the compounding, open jar body rotation power supply, the jar body will be treated the compounding from the feed inlet to forward rotation, mix the rotation that stops after a period, place automatic sampling device at the discharge gate, the backward rotation jar body, the material that will mix is discharged automatic sampling device from the discharge gate in, automatic sampling device samples according to the titanium sponge granule of frequency of setting for the discharge gate. The titanium sponge particles are then discharged into a transfer tank and then transported to a packaging plant for final packaging.

The above-mentioned embodiments only express the specific embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present application. It should be noted that, for those skilled in the art, without departing from the technical idea of the present application, several changes and modifications can be made, which are all within the protection scope of the present application.

Claims (7)

1. The utility model provides a large capacity titanium sponge granule compounding device which characterized in that: including base (4) and the jar body (7), be provided with feed inlet (1) and discharge gate (2) on the jar body (7), be provided with a jar body support (3) and power support (5) on base (4), jar body (7) one end is connected with a jar body support (3), and the other end is connected with power support (5), be provided with power device (6) on power support (5), power device (6) are used for driving jar body (7) rotatory, still be provided with support frame (8) on base (4), be provided with several backing roll (9) on support frame (8), backing roll (9) are used for supporting the middle part of a jar body (7).

2. A large capacity titanium sponge granule compounding device according to claim 1, characterized in that: the holding surface of support frame (8) is the arc, and is the same with the radian of the jar body (7), install with equidistant backing roll (9) on the holding surface, just the axis of backing roll (9) is parallel with the axis of the jar body (7).

3. A large capacity titanium sponge granule compounding device according to claim 1, characterized in that: discharge gate (2) below is provided with automatic sampling device, automatic sampling device includes the sampling device body, the top of sampling device body is provided with technology inflow entrance (10), the below of sampling device body is provided with funnel (15), the lower extreme of funnel (15) is provided with technology egress opening (11), the inside automatic sampling mechanism that is provided with of sampling device body, automatic sampling mechanism below is connected with sample export (16).

4. A large capacity titanium sponge granule compounding device according to claim 3, characterized in that: the automatic sampling mechanism comprises a motor (12), an output shaft of the motor (12) is connected with a transmission shaft (18), the lower end of the transmission shaft (18) is connected with a cylinder body (19), a sampling funnel (20) is connected to the side face of the cylinder body (19), the sampling funnel (20) is communicated with the inside of the cylinder body (19), and the lower end of the cylinder body (19) is communicated with a sample outlet (16).

5. A large capacity titanium sponge granule compounding device according to claim 4, characterized in that: the sample outlet (16) is connected with a sample discharging pipe (24), the top of the sample discharging pipe (24) is provided with a rotary connecting piece (23), and the rotary connecting piece (23) is connected with the barrel body (19).

6. A large capacity titanium sponge granule compounding device according to claim 4, characterized in that: the upper end of sample funnel (20) is provided with mounting panel (25), be provided with the bar hole on mounting panel (25), mounting panel (25) have bracing piece (21) through bar hole bolted connection, the top of bracing piece (21) is connected with swash plate (22).

7. A large capacity titanium sponge granule compounding device according to claim 4, characterized in that: be provided with the access hole on the lateral wall of sampling device body, be provided with baffle (13) on the access hole, baffle (13) one end is articulated with the lateral wall of sampling device body, and the other end passes through hasp (14) and the lateral wall fixed connection of sampling device body.

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