CN201047835Y - Orbit determination mobile probe portable refrigeration data collector - Google Patents

Abstract

The utility model relates to an orbit determination movable probe cooling data collection device comprising a machine case (1) on which a heating oven hole (2) and a medium sample cup hole (3) are provided. The machine case (1) is fixed on a vertical column (4) which is sheathed with a rotary disk (5) and a sliding sleeve (6) from the top to the bottom. A positioning device (7) is arranged between the vertical column (4) and the sliding sleeve (6); the upside of the sliding sleeve (6) connects with a limit vertical column (8) which is arranged in an arch groove (9) on the rotary disk (5). A level cantilever is positioned in the connection of the limit vertical column (8) and the rotary disk (5). The front end of the level cantilever (10) is connected with a clamping piece (12) with a testing probe (11). The testing probe can be made to rotate with the cantilever and the rotary distance can be limited by the limit vertical column. The motion of the probe can remain stable and consistent with good recurrence; thereby leading to the accuracy of collected data and the high testing precision.

Description

The portable cooling data collector of orbit determination mobile probe

Technical field:

The utility model relates to a kind of device that is used to detect the hardening media cooling velocity and since be a kind of guarantee to pop one's head in move steadily, running orbit is consistent, repeatability good, measuring accuracy the is high portable cooling rate instrument of orbit determination mobile probe.

Background technology:

The speed of hardening media cooling velocity directly has influence on the quenching quality,, has great significance for the mensuration of hardening media cooling velocity for this reason.At present, what detection hardening media cooling velocity generally adopted is the cooling curve method, and promptly the curve that is formed by a plurality of data of being gathered is the cooling performance deliberated index.Existing data collector comprises test probe, heating furnace, media samples cup etc., during each image data all is with heating furnace test probe to be heated earlier, afterwards by operating personnel's handheld test probe and mention, put into the media samples cup again, measure the cooling velocity of hardening media by test probe, draw cooling curve and calculate mean value by computing machine then.Because in the operating process, the track of probe from heating furnace to the media samples cup is fixing, human factor is big, randomness is high, reproducibility is poor, can't guarantee measuring accuracy.

Summary of the invention:

The utility model is in order to solve existing in prior technology the problems referred to above, provide a kind of guarantee to pop one's head in move steadily, running orbit is identical, repeatability good, measuring accuracy the is high portable cooling rate instrument of orbit determination mobile probe.

Technical solution of the present utility model is: the portable cooling data collector of orbit determination mobile probe, cabinet 1 is arranged, on cabinet 1, be provided with heating firehole 2 and media samples cup hole 3, be fixed with column 4 on the cabinet 1, on column 4, be with rotating disc 5, sliding sleeve 6 from top to bottom successively, between column 4 and the sliding sleeve 6 locating device 7 is arranged, with be connected to spacing column 8 above the sliding sleeve 6, spacing column 8 places the arc groove 9 that is located on the rotating disc 5, be connected to horizontal boom 10 with rotating disc 5, the front end of horizontal boom 10 joins with the clamping element 12 that accompanies test probe 11.

Described locating device 7 comprises the slide rail 13 that is located on the column 4, and the slide block 14 that joins with sliding sleeve 6 places in the slide rail 13.

The utility model can make test probe rotate with cantilever, and column restriction rotation distance in location is arranged, and can guarantee that probe moves steadily, running orbit is consistent, repeatability good, and the data of being gathered are accurate, measuring accuracy is high thereby make.

Description of drawings:

Fig. 1 is the structural representation of the utility model embodiment.

Fig. 2 is the partial enlarged drawing of Fig. 1.

Embodiment:

Below in conjunction with description of drawings embodiment of the present utility model.As shown in Figure 1: cabinet 1 is arranged, on cabinet 1, be provided with heating firehole 2 and media samples cup hole 3 and be fixedly connected by ring flange 15 and column 4, on column 4, be with rotating disc 5, be equipped with the sliding sleeve 6 that also is enclosed within on the column below the rotating disc 5, between column 4 and the sliding sleeve 6 locating device 7 is arranged, with be connected to spacing column 8 above the sliding sleeve 6, spacing column 8 places the arc groove 9 that is located on the rotating disc 5, be connected to horizontal boom 10 with rotating disc 5, the front end of horizontal boom 10 joins with the clamping element 12 that accompanies test probe 11.Locating device 7 between column 4 and the sliding sleeve 6 can have various ways, and preferably as shown in Figure 2: promptly be provided with slide rail 13 on column 4, the slide block 14 that joins with sliding sleeve 6 places in the slide rail 13.

Operating process:

Heating furnace places in the cabinet 1 of heating firehole 2 belows, the media samples cup 3 that fills medium places in the cabinet 1 of 3 belows, media samples cup hole, rotating disc 5, sliding sleeve 6 are risen, stir rotating disc 5, locating device 7 will stop sliding sleeve 6 to rotate, spacing column 8 on the sliding sleeve 6 is positioned at an end of arc groove 9, at this moment, horizontal boom 10 drives test probe 11 and rotates, just in time be positioned at the top of heating firehole 2, unclamp rotating disc 5, rotating disc 5, sliding sleeve 6 are under action of gravity, drive slide block 14 and slide in slide rail 13, test probe 11 places in the heating furnace; Test probe 11 is heated to design temperature, and rotating disc 5, sliding sleeve 6 are risen, and stirs rotating disc 5, locating device 7 stops sliding sleeve 6 to rotate, spacing column 8 on the sliding sleeve 6 is positioned at the other end of arc groove 9, and at this moment, horizontal boom 10 drives test probe 11 and rotates, just in time be positioned at the top in media samples cup hole 3, unclamp rotating disc 5, rotating disc 5, sliding sleeve 6 drive slide block 14 and slide in slide rail 13 under action of gravity, test probe 11 places in the media samples cup, collects the cooling velocity data.

Claims (2)

1. portable cooling data collector of orbit determination mobile probe, cabinet (1) is arranged, on cabinet (1), be provided with heating firehole (2) and media samples cup hole (3), it is characterized in that: be fixed with column (4) on the cabinet (1), on column (4), be with rotating disc (5) from top to bottom successively, sliding sleeve (6), between column (4) and the sliding sleeve (6) locating device (7) is arranged, with be connected to spacing column (8) above the sliding sleeve (6), spacing column (8) places the arc groove (9) that is located on the rotating disc (5), be connected to horizontal boom (10) with rotating disc (5), the front end of horizontal boom (10) joins with the clamping element (12) that accompanies test probe (11).

2. the portable cooling data collector of orbit determination mobile probe according to claim 1 is characterized in that: described locating device (7) comprises the slide rail (13) that is located on the column (4), and the slide block (14) that joins with sliding sleeve (6) places in the slide rail (13).

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