CN205199549U - Iron stand platform for can adjust wantonly experiments - Google Patents

Abstract

The utility model discloses an iron stand platform for can adjust wantonly experiments, including vertical rod, horizon bar, base and elevating platform, the vertical rod passes through slide mechanism slidable mounting on the base, the horizon bar passes through first sliding sleeve slidable mounting and on the vertical rod, still is provided with first locking bolt on the first sliding sleeve, slidable mounting has first iron ring mechanism and first iron clamp mechanism on the horizon bar, slidable mounting has second iron ring mechanism and second iron clamp mechanism on the vertical rod, second iron clamp structure of mechanism is the same with first iron clamp structure of mechanism, the elevating platform passes through elevating system and installs on the base, each of this iron stand platform for can adjust wantonly experiments is used for part of experiment all to be nimble adjustable, the requirement of having satisfied the laboratory technician that can be very big for the experimentation is influenced by the shortcoming of current instrument itself no longer, makes things convenient for experiment operation.

Description

A kind of experimental iron support that can regulate arbitrarily

Technical field

The utility model relates to laboratory apparatus field, specifically a kind of experimental iron support that can regulate arbitrarily.

Background technology

Iron stand is used for fixing and supports various instrument, and iron ring can replace funnel stand to use.Generally be usually used in the experimental implementation such as filtration, heating, titration.It is one of most popular instrument in physics, chemical experiment.In laboratory of middle school, relate to evaporation, backflow, the experimental implementation such as filtration, great majority test needs to use iron stand to assist, and existing iron stand still has some deficits in the process used, as the height and position of alcolhol burner, the inclination angle of test tube, can not regulate along with the wish of laboratory technician, just need the instrument regulating other positions back and forth, sometimes experimental provision is re-assemblied after even needing dismounting, this process was both lost time, larger labour is caused again to laboratory technician, sometimes even experimental provision can be caused damaged owing to being not easy to operation, even cause the failure of an experiment.

Utility model content

The purpose of this utility model is to provide a kind of experimental iron support that can regulate arbitrarily, to solve the problem proposed in above-mentioned background technology.

For achieving the above object, the utility model provides following technical scheme:

The experimental iron support that can regulate arbitrarily, comprises vertical rod, horizon bar, base and lifting platform; Described vertical rod is slidably mounted on base by slide mechanism; Described horizon bar is slidably mounted on vertical rod by the first sliding sleeve, the first sliding sleeve is also provided with the first clamping screw that horizon bar and vertical rod are locked; Described horizon bar is slidably fitted with the first iron ring mechanism and the first iron clamp mechanism, described first iron ring mechanism and the first iron clamp mechanism are slidably mounted on horizon bar respectively by two the second sliding sleeves, and the second sliding sleeve is also provided with the second clamping screw; Described vertical rod is slidably fitted with the second iron ring mechanism and the second iron clamp mechanism, described second iron ring mechanism and the second iron clamp mechanism are slidably mounted on vertical rod respectively by two the 3rd sliding sleeves, the 3rd sliding sleeve are also provided with the 3rd clamping screw; The structure of described second iron clamp mechanism is identical with the structure of the first iron clamp mechanism; Described lifting platform is arranged on base by elevating mechanism.

As further program of the utility model: described slide mechanism is made up of the chute be arranged on base and the slide block that is arranged on vertical rod bottom, chute is opened on base in the horizontal direction, described slide block matches with chute, skid is arranged in chute, described slide block is also provided with fastening bolt slide block and chute locked.

As the utility model further scheme: described chute is inverted T shape chute.

As the utility model further scheme: described elevating mechanism comprises the sliding tray being arranged on lifting platform lower end and the elevating lever be arranged on base, described elevating lever bottom is articulated with base, the first arc tingle for both being locked is provided with between elevating lever and base, elevating lever top is provided with the sliding shoe corresponding with sliding tray, sliding shoe is slidably mounted in sliding tray, elevating lever and sliding shoe are hinged, and arrange the second arc tingle being used for both to lock between elevating lever and sliding shoe.

As the utility model further scheme: described first iron clamp mechanism comprises chuck, connecting rod and support bar, described chuck is provided with opening degree adjusting bolt, opening degree adjusting bolt is for regulating the opening degree of chuck, described chuck is connected to support bar by connecting rod, and the junction of support bar and connecting rod is provided with angular adjustment nut.

Compared with prior art, the beneficial effects of the utility model are: each of 1, this experimental iron support that can regulate arbitrarily is all adjustable flexibly for the parts of testing, the requirement of laboratory technician can greatly be met, make experimentation no longer by the disadvantages affect of existing instrument itself, facilitate experimental implementation.2, this experimental iron support production cost that can regulate arbitrarily is low, simple structure, and whole experimental provision each several part all can experimentally need any adjustment, there is relatively comprehensively flexibility, and the used time can not dismantled and be received dress, reduces the parking space that iron stand takies, is easy to deposit.

Accompanying drawing explanation

Fig. 1 is the structural representation of the experimental iron support that can regulate arbitrarily.

Fig. 2 is the structural representation of the first iron clamp mechanism in the experimental iron support that can regulate arbitrarily.

In figure: 1-vertical rod, 2-horizon bar, 3-first iron ring mechanism, 4-first iron clamp mechanism, 5-second iron ring mechanism, 6-second iron clamp mechanism, 7-base, 8-slide block, 9-chute, 10-lifting platform, 11-sliding tray, 12-elevating lever, 13-first arc tingle, 14-chuck, 15-opening degree adjusting bolt, 16-connecting rod, 17-angular adjustment nut, 18-support bar.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Refer to Fig. 1 ~ 2, in the utility model embodiment, a kind of experimental iron support that can regulate arbitrarily, comprises vertical rod 1, horizon bar 2, base 7 and lifting platform 10, described vertical rod 1 is slidably mounted on base 7 by slide mechanism, preferably, described slide mechanism is made up of the chute 9 be arranged on base 7 and the slide block 8 that is arranged on vertical rod 1 bottom, chute 9 is opened on base 7 in the horizontal direction, described slide block 8 matches with chute 9, slide block 8 is slidably mounted in chute 9, described chute 9 is inverted T shape chute, described slide block 8 is also provided with fastening bolt slide block 8 and chute 9 locked, during use, unscrew fastening bolt, slide block 8 just can move along chute 9, thus vertical rod 1 is moved along base 7, after vertical rod 1 is adjusted to correct position, screw fastening bolt, slide block 8 and chute 9 will lock, now the position of vertical rod 1 will be fixed, experiment is affected to avoid vertical rod 1 in subsequent experimental process to move, described horizon bar 2 is slidably mounted on vertical rod 1 by the first sliding sleeve, first sliding sleeve is also provided with the first clamping screw that horizon bar 2 and vertical rod 1 are locked, during use, unscrew the first clamping screw, horizon bar 2 just can move along vertical rod 1, thus regulates the height of horizon bar 2, after horizon bar 2 is adjusted to correct position, screw the first clamping screw, horizon bar 2 and vertical rod 1 will lock, and now the position of horizon bar 2 will be fixed,

Described horizon bar 2 is slidably fitted with the first iron ring mechanism 3 and the first iron clamp mechanism 4, described first iron ring mechanism 3 and the first iron clamp mechanism 4 are slidably mounted on horizon bar 2 respectively by two the second sliding sleeves, second sliding sleeve is also provided with the second clamping screw, during use, unscrew corresponding second clamping screw, just can regulate the first iron ring mechanism 3 or the first position of iron clamp mechanism 4 on horizon bar 2, after adjustment, the second clamping screw be screwed; Described first iron clamp mechanism 4 comprises chuck 14, connecting rod 16 and support bar 18, described chuck 14 is provided with opening degree adjusting bolt 15, opening degree adjusting bolt 15 is for regulating the opening degree of chuck 14, for clamping different laboratory apparatus, described chuck 14 is connected to support bar 18 by connecting rod 16, support bar 18 is provided with angular adjustment nut 17 with the junction of connecting rod 16, by angular adjustment nut 17 for regulating the angle of inclination of chuck 14, to regulate the angle of inclination of laboratory apparatus; Described vertical rod 1 is slidably fitted with the second iron ring mechanism 5 and the second iron clamp mechanism 6, described second iron ring mechanism 5 and the second iron clamp mechanism 6 are slidably mounted on vertical rod 1 respectively by two the 3rd sliding sleeves, 3rd sliding sleeve is also provided with the 3rd clamping screw, during use, unscrew corresponding 3rd clamping screw, just can regulate the second iron ring mechanism 5 or the second position of iron clamp mechanism 6 on vertical rod 1, after adjustment, the 3rd clamping screw be screwed; The structure of described second iron clamp mechanism 6 is identical with the structure of the first iron clamp mechanism 4;

Described lifting platform 10 is arranged on base 7 by elevating mechanism, elevating mechanism can regulate the height of lifting platform 10, with satisfied experiment demand, preferably, described elevating mechanism comprises the sliding tray 11 being arranged on lifting platform 10 lower end and the elevating lever 12 be arranged on base 7, described elevating lever 12 bottom is articulated with base 7, the first arc tingle 13 for both being locked is provided with between elevating lever 12 and base 7, elevating lever 12 top is provided with the sliding shoe corresponding with sliding tray 11, sliding shoe is slidably mounted in sliding tray 11, elevating lever 12 and sliding shoe are hinged, and the second arc tingle being used for both to lock is set between elevating lever 12 and sliding shoe, when needing the height regulating lifting platform 10, only need to be unlocked between elevating lever 12 and base 7 by the first arc tingle 13, elevating lever 12 is rotated around base 7, just can regulate the height of lifting platform 10, after being adjusted to proper height, locked between elevating lever 12 and base 7 by the first arc tingle 13, and regulate the angle between elevating lever 12 and sliding shoe, lifting platform 10 is made to be in level, to carry laboratory apparatus, according to demand, the power of horizontal direction can be applied to lifting platform 10, by the relative sliding between sliding tray 11 and sliding shoe, regulate the horizontal level of lifting platform 10.

Operation principle of the present utility model is: the described experimental iron support that can regulate arbitrarily, during use, when needing the position regulating vertical rod 1, unscrew fastening bolt, slide block 8 just can move along chute 9, thus vertical rod 1 is moved along base 7, after vertical rod 1 is adjusted to correct position, screw fastening bolt, slide block 8 and chute 9 will lock, now the position of vertical rod 1 will be fixed, and affect experiment to avoid vertical rod 1 in subsequent experimental process to move.When needing the height regulating horizon bar 2, unscrew the first clamping screw, horizon bar 2 just can move along vertical rod 1, thus regulate the height of horizon bar 2, after horizon bar 2 is adjusted to correct position, screw the first clamping screw, horizon bar 2 and vertical rod 1 will lock, and now the position of horizon bar 2 will be fixed.Unscrew corresponding second clamping screw, just can regulate the first iron ring mechanism 3 or the first position of iron clamp mechanism 4 on horizon bar 2, after adjustment, the second clamping screw be screwed.Unscrew corresponding 3rd clamping screw, just can regulate the second iron ring mechanism 5 or the second position of iron clamp mechanism 6 on vertical rod 1, after adjustment, the 3rd clamping screw be screwed.If desired the clamping angle of the first iron clamp mechanism 4 or the second iron clamp mechanism 6 is regulated, only need the angle of inclination that just can be regulated chuck 14 by angular adjustment nut 17, to regulate the angle of inclination of laboratory apparatus, and opening degree adjusting bolt 15 is for regulating the opening degree of chuck 14, for clamping different laboratory apparatus.When needing the height regulating lifting platform 10, only need to be unlocked between elevating lever 12 and base 7 by the first arc tingle 13, elevating lever 12 is rotated around base 7, just can regulate the height of lifting platform 10, after being adjusted to proper height, locked between elevating lever 12 and base 7 by the first arc tingle 13, and regulate the angle between elevating lever 12 and sliding shoe, lifting platform 10 is made to be in level, to carry laboratory apparatus, according to demand, the power of horizontal direction can be applied to lifting platform 10, by the relative sliding between sliding tray 11 and sliding shoe, regulate the horizontal level of lifting platform 10.

Each of the described experimental iron support that can regulate arbitrarily is all adjustable flexibly for the parts of testing, and can greatly meet the requirement of laboratory technician, makes experimentation no longer by the disadvantages affect of existing instrument itself, facilitates experimental implementation.The described experimental iron support production cost that can regulate arbitrarily is low, simple structure, and whole experimental provision each several part all can experimentally need any adjustment, there is relatively comprehensively flexibility, and the used time can not dismantled and be received dress, reduces the parking space that iron stand takies, is easy to deposit.

To those skilled in the art, obvious the utility model is not limited to the details of above-mentioned one exemplary embodiment, and when not deviating from spirit of the present utility model or essential characteristic, can realize the utility model in other specific forms.Therefore, no matter from which point, all should embodiment be regarded as exemplary, and be nonrestrictive, scope of the present utility model is limited by claims instead of above-mentioned explanation, and all changes be therefore intended in the implication of the equivalency by dropping on claim and scope are included in the utility model.Any Reference numeral in claim should be considered as the claim involved by limiting.

In addition, be to be understood that, although this description is described according to embodiment, but not each embodiment only comprises an independently technical scheme, this narrating mode of description is only for clarity sake, those skilled in the art should by description integrally, and the technical scheme in each embodiment also through appropriately combined, can form other embodiments that it will be appreciated by those skilled in the art that.

Claims (5)

1. the experimental iron support that can regulate arbitrarily, is characterized in that, comprises vertical rod (1), horizon bar (2), base (7) and lifting platform (10); Described vertical rod (1) is slidably mounted on base (7) by slide mechanism; Described horizon bar (2) is slidably mounted on vertical rod (1) by the first sliding sleeve, the first sliding sleeve is also provided with the first clamping screw that horizon bar (2) and vertical rod (1) are locked; Described horizon bar (2) is slidably fitted with the first iron ring mechanism (3) and the first iron clamp mechanism (4), described first iron ring mechanism (3) and the first iron clamp mechanism (4) are slidably mounted on horizon bar (2) respectively by two the second sliding sleeves, and the second sliding sleeve is also provided with the second clamping screw; Described vertical rod (1) is slidably fitted with the second iron ring mechanism (5) and the second iron clamp mechanism (6), described second iron ring mechanism (5) and the second iron clamp mechanism (6) are slidably mounted on vertical rod (1) respectively by two the 3rd sliding sleeves, the 3rd sliding sleeve are also provided with the 3rd clamping screw; The structure of described second iron clamp mechanism (6) is identical with the structure of the first iron clamp mechanism (4); Described lifting platform (10) is arranged on base (7) by elevating mechanism.

2. the experimental iron support that can regulate arbitrarily according to claim 1, it is characterized in that, described slide mechanism is made up of the chute (9) be arranged on base (7) and the slide block (8) that is arranged on vertical rod (1) bottom, chute (9) is opened on base (7) in the horizontal direction, described slide block (8) matches with chute (9), slide block (8) is slidably mounted in chute (9), described slide block (8) is also provided with fastening bolt slide block (8) and chute (9) locked.

3. the experimental iron support that can regulate arbitrarily according to claim 2, is characterized in that, described chute (9) is inverted T shape chute.

4. the experimental iron support that can regulate arbitrarily according to claim 1 or 2 or 3, it is characterized in that, described elevating mechanism comprises the sliding tray (11) being arranged on lifting platform (10) lower end and the elevating lever (12) be arranged on base (7), described elevating lever (12) bottom is articulated with base (7), the first arc tingle (13) for both being locked is provided with between elevating lever (12) and base (7), elevating lever (12) top is provided with the sliding shoe corresponding with sliding tray (11), sliding shoe is slidably mounted in sliding tray (11), elevating lever (12) and sliding shoe are hinged, and the second arc tingle being used for both to lock is set between elevating lever (12) and sliding shoe.

5. the experimental iron support that can regulate arbitrarily according to claim 4, it is characterized in that, described first iron clamp mechanism (4) comprises chuck (14), connecting rod (16) and support bar (18), described chuck (14) is provided with opening degree adjusting bolt (15), opening degree adjusting bolt (15) is for regulating the opening degree of chuck (14), described chuck (14) is connected to support bar (18) by connecting rod (16), and support bar (18) is provided with angular adjustment nut (17) with the junction of connecting rod (16).