CN220194913U - Self-adaptive adjustable vessel fixing device - Google Patents

Abstract

The utility model discloses a self-adaptive adjustable vessel fixing device, which comprises: the device comprises a base, an observation table arranged above the base, a lifter arranged on one side of the observation table and the base, an induction switch arranged on the observation table, a fixing unit and a guiding unit; the fixing unit comprises a fixing baffle plate, a telescopic clamping plate, a telescopic motor and a sliding pad arranged on the observation table and a concave placing groove arranged on the sliding pad; the guide unit comprises a sliding guide block and a sliding rail. The lifter comprises a fixed plate and a lifting motor; the lifting motor is connected with the induction switch and the telescopic motor in series, and when the induction switch senses that the vessel is placed at the upper end of the observation table, the lifting motor is electrified to rise to a preset position, and the telescopic motor clamps the vessel; if the vessel is required to be taken away, the power supply is cut off, and the lifting motor and the telescopic motor are powered off to restore to the original positions; in the operation, a tester is not required to hold the vessel for a long time, the influence of liquid level shaking on data acquisition is avoided, and the vessel observation efficiency is improved.

Description

Self-adaptive adjustable vessel fixing device

Technical Field

The embodiment of the utility model belongs to the technical field of experimental equipment, and particularly relates to a self-adaptive adjustable vessel fixing device.

Background

The vessel is a common test tool in a laboratory, is made of glass, plastic or heat-resistant glass, is mostly cylindrical, has different heights, is mainly widely applied to heating, dissolving and mixing of chemical reagents, and can be used for boiling, melting, evaporating, concentrating, diluting, precipitating, clarifying and the like of the reagents carried in the vessel, and most transparent vessels often need operators to observe the vessels and record data in the experimental process.

In the prior art, after filling the vessel with the corresponding liquid reagent, operators need to pick up the vessel and observe the liquid level position for data recording; usually, a mode of taking by hand and simply observing visually is adopted, muscle fatigue is easy to generate in a long-time manual taking and lifting process, the liquid level shakes, the observation efficiency is low, and the accuracy of guaranteeing the observation of liquid level data cannot be confirmed quickly.

Disclosure of Invention

Aiming at the defects or improvement demands of the prior art, the utility model provides the self-adaptive adjustable vessel fixing device, so that the problem that when an operator collects liquid level data in a vessel, the operator is tired of manually lifting the generated muscle for a long time and can be assisted to quickly confirm the liquid level data, and the observation efficiency of the operator is improved.

The utility model provides a self-adaptive adjustable vessel fixing device, which comprises:

the device comprises a base, an observation table arranged above the base, a lifter arranged on one side of the observation table and the base, a fixing unit and an inductive switch arranged on the observation table, and a guide unit arranged on one side of the observation table;

the fixing unit comprises a fixing baffle plate, a telescopic clamping plate and a telescopic motor, wherein the fixing baffle plate and the telescopic clamping plate are arranged on the observation table;

the guide unit comprises a sliding guide block and a sliding rail.

Further, the fixing unit further comprises an arc-shaped fixing groove which is arranged on the inner sides of the fixing baffle plate and the telescopic clamping plate and is consistent with the side wall of the vessel in a fitting mode.

Further, flexible pads are arranged in the fixing grooves.

Further, the fixing unit further comprises a non-slip pad arranged on the observation table.

Further, the anti-slip pad is provided with an avoidance hole corresponding to the position of the inductive switch.

Further, the slipmat includes a concave placement groove for placement of the vessel.

Further, the inductive switch is any one of a pressure inductive switch, an infrared inductive switch or an ultrasonic inductive switch.

Further, the lifter further comprises a lifting motor arranged on one side of the base and a fixing plate connected with the lifting motor.

Further, the inductive switch is connected with the lifting motor and the telescopic motor in series.

Further, a graduated scale is arranged on the sliding rail.

In general, the above technical solutions conceived by the present utility model, compared with the prior art, enable the following beneficial effects to be obtained:

(1) The utility model provides a self-adaptive adjustable vessel fixing device, which is characterized in that an induction switch is arranged on an observation table, and the induction switch, a lifting motor and a telescopic motor are connected in series; when the vessels are placed on the observation table, the vessels on the observation table are instantly fixed in a falling-preventing manner, and the observation table is lifted to a preset lifting height, so that operators with different heights can be enabled to look at the solution in the vessels in a head-up manner when operating, muscle soreness generated when the vessels are observed for a long time to record data is prevented, and the operating efficiency of the operators is improved;

(2) The utility model provides a self-adaptive adjustable vessel fixing device, which is characterized in that an integrated chute track is arranged on a base, and a sliding guide block is fixed on one side of an observation table; the observation table is prevented from shaking unstably in the horizontal direction in the lifting process, and a height graduated scale is arranged on one side of the sliding rail in combination with the sliding guide block, so that an operator can know the lifting height of the observation table at any time, and the preset height is adjusted and set; the stability of the vessel when the vessel rises along with the observation table is improved, and the possibility of accidents and inaccurate data in the test process is reduced;

(3) The utility model provides a self-adaptive adjustable vessel fixing device, which reduces abrasion generated when a vessel is contacted with an observation table by arranging an anti-slip pad with a placing groove on the observation table for placing the vessel, and prolongs the service life of equipment.

Drawings

Fig. 1 is a schematic perspective view of a vessel fixing apparatus according to a first embodiment of the present utility model;

FIG. 2 is a schematic perspective view of a vessel fixing device according to another embodiment;

FIG. 3 is a schematic perspective view of a vessel fixing device according to another embodiment;

fig. 4 is a schematic perspective view of a vessel fixing device according to another embodiment.

The device comprises a 1-base, a 2-observation table, a 3-lifter, a 301-fixing plate, a 302-lifting motor, a 4-inductive switch, a 5-fixing baffle, a 6-telescopic clamping plate, a 7-telescopic motor, an 8-fixing groove, a 9-anti-skid pad, a 10-avoiding hole, an 11-placing groove, a 12-sliding guide block and a 13-sliding rail.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model. In addition, technical features of the embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other;

it is to be understood that the terms "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate describing the present utility model and simplify the description, and do not indicate or imply that the devices or elements being referred to must have a particular orientation, be constructed and operate in a particular orientation, and thus are not to be construed as limiting the present utility model.

As shown in fig. 1, an embodiment of the present utility model provides a self-adaptive adjustable vessel fixing device, which structurally includes: the device comprises a base 1, an observation table 2 arranged above the base 1 and used for carrying vessels for observation, a lifter 3 arranged on one side of the observation table 2 and connected with the base 1, and an induction switch 4 arranged in the middle of the observation table 2;

the lifter 3 is composed of a fixed plate 301 arranged below the observation platform 2 and used for bearing vessels and the observation platform 2, and a lifting motor 302 connected with the fixed plate 301.

The inductive switch 4 arranged in the middle of the observation platform 2 and used for sensing the placement state of the vessel is connected in series with the lifting motor 302 in the lifting machine 3 in an electric circuit.

When the induction switch 4 senses that the vessel is placed on the upper end face of the observation platform 2, a power supply can be conducted, so that the lifting motor 302 is electrified to start lifting, the vessel on the observation platform 2 is lifted to a preset position before operation, an experimenter can observe the condition of the reagent in the vessel directly, preset adjustment can be carried out according to different observation position points set by different experimenters at the preset position before electrification, operators with different heights can finish the observation of the reagent in the vessel without manually lifting the vessel, and the problem that the experimenter does not need to worry about inaccurate record data caused by shaking of the liquid level when observing the vessel is solved; when the experimenter is finished observing the vessel, after the experimenter takes the vessel away from the observation table 2, the induction switch arranged on the observation table 2 is closed in an induction way, and then the power-off indication of the lifting motor 302 is finished through the series circuit, and the observation table 2 is automatically returned to the original point position before the operation, so that the experimenter can conveniently reset and preset the position when the experimenter operates next time.

In another embodiment provided by the present utility model, as shown in fig. 2, the present utility model provides an adaptively adjustable vessel fixing device, further comprising:

the device comprises a fixed baffle plate 5 and a telescopic clamping plate 6 which are arranged on the upper end surface of the observation table 2, a telescopic motor 7 which is connected with the telescopic clamping plate 6 and fixed on the observation table 2, and a fixed groove 8 which is arranged on the inner sides of the fixed baffle plate 5 and the telescopic clamping plate 6 and can be attached to the outer wall of a vessel;

the inner sides of the fixed baffle plate 5 and the telescopic clamping plate 6 are respectively provided with a flexible pad which is in direct contact with a vessel to be fixed, so that the fixed baffle plate 5 or the telescopic clamping plate 6 can be prevented from damaging the vessel when the vessel is clamped in a telescopic manner, meanwhile, the flexible pads increase the contact area between the fixed baffle plate 5 and the telescopic clamping plate 6 and the vessel to a certain extent when the vessel is clamped, and the flexible pads and the telescopic clamping plate are made of soft and anti-skid materials such as rubber, silica gel and latex, so that the flexible pads and the telescopic clamping plate achieve the anti-skid and anti-wear effects when the vessel is clamped, and the service life and the equipment performance of the vessel are prolonged;

the telescopic clamping plate 6 is arranged at the telescopic end of the telescopic motor 7, and the telescopic motor 7 and the induction switch 4 are connected in series in a circuit;

the fixing groove 8 is an arc groove which is anastomotic with the side wall of the vessel, so that better clamping force and enclosure force are provided by combining the flexible pad in the vessel clamping process, the contact area of the fixing baffle 5 and the telescopic clamping plate 6 with the vessel is increased, and the stability of the vessel on the observation table 2 is increased.

When an operator observes the vessel, the induction switch 4 is electrified and is started after the induction switch senses that the vessel is placed on the upper end face of the observation platform 2, and then the telescopic motor 7 is driven to drive the telescopic clamping plate 6 connected with the telescopic end of the telescopic motor 7 to clamp the vessel between the fixed baffle 5 and the telescopic clamping plate 6, so that the vessel can be stably placed on the plane of the observation platform 2 when the vessel is placed on the observation platform 2 for observation operation, the vessel is prevented from being displaced on the observation platform 2 due to collision in the observation process, and the vessel is prevented from falling down; after the observation is finished, an operator only needs to turn off the total power supply, so that the telescopic clamping plate 6 connected with the telescopic motor 7 loosens the vessel, the lifting motor 302 of the lifter 3 controls the fixing plate 301 to restore the original position, the vessel is taken away, the situation that the power supply is forgotten to be cut off after the vessel is taken away can be avoided, the effect of random power supply is achieved, and the power supply waste is avoided.

In another embodiment of the present utility model, as shown in fig. 3, the embodiment of the present utility model provides a self-adaptive adjustable vessel fixing device, which further includes an anti-slip pad 9 disposed at the upper end of the observation platform 2 and used for preventing the vessel from sliding, an avoidance hole 10 disposed in the middle of the anti-slip pad 9 and used for guaranteeing the normal operation of the inductive switch 4 disposed on the upper plane of the observation platform 2, and a placement groove 11 disposed in the middle of the anti-slip pad 9;

the anti-slip pad 9 can be made of materials with anti-slip effect such as rubber, PVC, PU, AB rubber, silica gel, magic rubber and the like, and is arranged on the upper end surface of the observation table 2; the placing groove 62 is a circular groove and is arranged in the middle of the anti-skid pad 9, so that the vessel can be placed on the observation table 2 quickly; and in order to avoid that the anti-slip pad 9 influences the induction effect of the induction switch 4 which is also arranged on the upper end face of the observation table 2 and used for inducing the placement state of the vessel, the anti-slip pad 9 is provided with avoidance holes 10 with the same size at the corresponding positions where the induction switch 4 is placed, so that the reaction sensitivity of the induction switch 4 is ensured while the temperature of the vessel is ensured to prevent sliding displacement, the operation time is saved, and the operation convenience is ensured.

In another embodiment of the present utility model, as shown in fig. 4, the embodiment of the present utility model further includes a guiding unit, specifically including a sliding guiding block 12 fixedly disposed on one side of the observation stand 2, and a sliding rail 13 fixed on the base 1 for sliding the sliding guiding block 12 in a vertical direction thereof;

the sliding guide block 12 can move on a corresponding sliding rail 13 along with the lifting of the observation platform 2; when the observation platform 20 is in lifting motion under the control of the lifting motor 302, the sliding guide block 12 slides along the sliding rail 13, so that the horizontal shaking during the lifting sliding of the observation platform 2 is avoided, the sliding rail 13 is an integrated sliding groove rail, and a height ruler is arranged on one side of a groove for placing the sliding guide block 12, so that the height of the observation platform 2 can be checked and calibrated in real time by the lifter 3 in the process of controlling the lifting motor 302; when the preset height of the observation platform 2 is not consistent with the actual lifting height, debugging is performed in time; so that when different operating personnel observe in the household utensils is fixed, according to different height demands, carry out interval height and predetermine, and then with observing platform 2 rise to corresponding high degree of observing fast, improve operating personnel's observation efficiency, be convenient for observe the record fast.

According to the utility model, the induction switch is arranged on the observation table, the induction switch, the lifting motor and the telescopic motor are connected in series, when an operator presets the height of the lifting motor, the power supply is switched on, the vessel is placed on the observation table, the placement state of the vessel is induced through the induction switch, meanwhile, the lifting motor controls the observation table to lift to the preset height, and the telescopic motor enables the telescopic clamping plate and the fixed clamping plate on the observation table to fix the vessel together; in the lifting process, the sliding guide block moves in the vertical direction on the sliding rail, so that the lifting height of the observation table can be checked at any time, and the horizontal stability during lifting is ensured; the observation platform is improved to stably lift, meanwhile, the observation efficiency of operators is improved, muscle soreness caused by long-term hand lifting of the data of the observation vessel is reduced, and the inaccuracy rate of data observation in the manual hand lifting observation process is reduced.

It will be readily appreciated by those skilled in the art that the foregoing description is merely a preferred embodiment of the utility model and is not intended to limit the utility model, but any modifications, equivalents, improvements or alternatives falling within the spirit and principles of the utility model are intended to be included within the scope of the utility model.

Claims (10)

1. An adaptively adjustable vessel fixture, comprising:

the device comprises a base (1), an observation table (2) arranged above the base (1), a lifter (3) arranged on one side of the observation table (2) and one side of the base (1), a fixing unit and an inductive switch (4) arranged on the observation table (2) and a guiding unit arranged on one side of the observation table (2);

the fixing unit comprises a fixing baffle (5) arranged on the observation table (2), a telescopic clamping plate (6) and a telescopic motor (7) connected with the telescopic clamping plate (6);

the guide unit comprises a sliding guide block (12) and a sliding rail (13).

2. The self-adaptive adjustable vessel fixing device according to claim 1, wherein the fixing unit further comprises a circular arc-shaped fixing groove (8) which is arranged on the inner side of the fixing baffle plate (5) and the telescopic clamping plate (6) and is consistent with the vessel side wall in a fitting manner.

3. An adaptively adjustable vessel anchoring device according to claim 2, wherein flexible pads are provided in the anchoring grooves (8).

4. An adaptively adjustable vessel fixing device as defined in claim 3, wherein said fixing unit further comprises a non-slip mat (9) provided on the observation stand (2).

5. The self-adaptive adjustable vessel fixing device according to claim 4, wherein the anti-slip pad (9) is provided with an avoidance hole (10) corresponding to the position of the induction switch (4).

6. An adaptively adjustable dish fixing device according to claim 5, characterized in that the anti-slip pad (9) comprises a concave placement groove (11) for placing a dish.

7. An adaptively adjustable vessel anchoring device according to any one of claims 1-6, wherein the inductive switch (4) is any one of a pressure-sensitive switch, an infrared-sensitive switch or an ultrasonic-sensitive switch.

8. An adaptively adjustable vessel fixing device according to any one of claims 1-6, wherein the elevator (3) further comprises an elevator motor (302) provided at one side of the base (1) and a fixing plate (301) connected to the elevator motor (302).

9. An adaptively adjustable vessel fixing device according to claim 8, wherein the induction switch (4) is connected in series with the lifting motor (302) and the telescopic motor (7).

10. An adaptively adjustable vessel anchoring device according to any one of claims 1-6, wherein the slide rail (13) is provided with a graduated scale.