Integrated distillation stand

By designing an integrated distillation rack and using locking components and position adjustment assemblies to fix the receiving bottle and distillation tube, the problem of tilting and collision of the receiving bottle is solved, improving the stability and safety of the device, while reducing space occupation.

CN224321457UActive Publication Date: 2026-06-05CHONGQING THREE GORGES WATER CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHONGQING THREE GORGES WATER CO LTD
Filing Date
2025-05-28
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

The receiving flask in existing distillation apparatus lacks a protective structure, making it prone to tilting and collisions, leading to instability and safety hazards.

Method used

An integrated distillation rack was designed, including a support frame, a first placement platform, and a second placement platform. The second placement platform is equipped with a locking mechanism for securing the receiving bottle. The locking mechanism consists of a wedge block, a telescopic rod, and a spring, combined with a rubber pad and anti-slip ridges to increase friction. The first placement platform has a clamp and a position adjustment assembly on its side for securing the distillation tube. The interior is equipped with a multi-unit electric furnace and a protective railing.

Benefits of technology

This design ensures the stable placement of the receiving bottle, preventing accidental tilting and collisions, improving the safety and ease of operation of the device, and reducing space occupation.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses an integrated distillation frame, including support frame, first placing table, install on support frame for placing flask, second placing table, be located first placing table below for placing receiving bottle, clamping piece set up on second placing table for receiving bottle clamping fixed. The utility model has solved the problem that the existing receiving bottle does not have the protection structure and is easy to incline and collide, through setting first placing table and second placing table, the glassware required for distillation is orderly and uniformly placed, and the convenience for subsequent distillation operation is provided. Through setting clamping piece to receiving bottle clamping placement, avoid staff to incline and collide by mistake to receive the bottle, increase the stability of receiving bottle, improve the security of device.
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Description

Technical Field

[0001] This utility model relates to the field of distillation equipment technology, specifically to an integrated distillation rack. Background Technology

[0002] A distillation rack is a process testing instrument used in the field of chemical engineering and is widely used in many areas. Existing general distillation apparatus consists of two iron stands that use clamps to hold the distillation flask and condenser respectively, and are connected by some pipe fittings, with a receiving bottle at the end. If multiple distillation experiments need to be carried out simultaneously, more iron stands are required, which takes up a lot of experimental space and brings certain disadvantages to the user experience.

[0003] To address the aforementioned issues, Chinese Patent (Announcement No.: CN218689640U) discloses a novel adjustable distillation rack, comprising a placement platform, an electric furnace mounted on the upper outer surface of the placement platform, lifting mechanisms mounted on both the front and rear ends of the lower outer surface of the placement platform, and an angle adjustment mechanism mounted on one side of the placement platform.

[0004] The above solution secures the flasks and distillation tubes, while the receiving bottles are directly exposed on the experimental table. Due to the lack of protective structure, staff may accidentally bump into the receiving bottles during operations and inspections, causing them to tilt and become damaged. This could also lead to a chain reaction of tilting of the entire row of recycling bottles. Utility Model Content

[0005] The technical problem to be solved by this utility model is that existing receiving bottles are prone to tilting and collision due to the lack of protective structure. The purpose is to provide an integrated distillation rack to solve the problem of existing receiving bottles being prone to tilting and collision due to the lack of protective structure.

[0006] This utility model is achieved through the following technical solution:

[0007] An integrated distillation rack, comprising:

[0008] Support frame,

[0009] The first placement platform, mounted on a support frame, is used to place the flask;

[0010] The second placement platform, located below the first placement platform, is used to place the receiving bottle.

[0011] The locking component, located on the second placement platform, is used to lock and secure the receiving bottle.

[0012] As one of the preferred technical solutions, the second placement platform has a placement slot, and the locking component is installed in the placement slot.

[0013] As one of the preferred technical solutions, the locking component includes a wedge-shaped block, a first telescopic rod, and a first spring.

[0014] Multiple wedge blocks are provided, and the multiple wedge blocks are circumferentially slidably arranged in the placement groove;

[0015] The first telescopic rod is connected between the wedge block and the placement groove;

[0016] The first spring is sleeved on the first telescopic rod and its two ends are respectively connected to the wedge block and the placement groove.

[0017] As one of the preferred technical solutions, each of the wedge blocks is provided with a rubber pad, and the surface of the rubber pad is provided with anti-slip ridges.

[0018] As one of the preferred technical solutions, a clip is installed on one side of the first placement platform, and the clip is connected to a position adjustment component.

[0019] As one of the preferred technical solutions, the position adjustment assembly includes a vertical support block, a slider, and a clamping member.

[0020] The vertical support block is installed on the first placement platform, and multiple limiting grooves are provided on both sides of the vertical support block;

[0021] The slider is vertically slidably connected to the vertical support block and fixedly connected to the clamp;

[0022] The clamping element is mounted on the slider and is used to cooperate with the limiting groove to achieve clamping and fixing.

[0023] As one of the preferred technical solutions, the clamping component includes a sliding rod, a limiting block, a second telescopic rod, and a second spring.

[0024] There are two slide bars, both of which are slidably connected within the slider and the two slide bars intersect to form an intersection area.

[0025] There are two limiting blocks, each connected to a sliding rod, for engaging with corresponding limiting grooves.

[0026] The second telescopic rod is installed in the intersection area between the two sliding rods;

[0027] The second spring is sleeved on the second telescopic rod and its two ends are connected to two sliding rods.

[0028] As one of the preferred technical solutions, a heating device is placed inside the first placement stage for heating the flask.

[0029] As one of the preferred technical solutions, the heating device is a multi-unit electric furnace, which is equipped with a heating tank for placing flasks.

[0030] As one of the preferred technical solutions, a protective railing is provided on the outside of the first placement platform.

[0031] Compared with the prior art, this utility model has the following advantages and beneficial effects:

[0032] 1. By setting up a first and a second placement platform, the glassware required for distillation can be placed in an orderly and unified manner, which takes up little space and provides convenience for subsequent distillation operations.

[0033] 2. By setting up locking components to secure the receiving bottles, the device can prevent accidental tilting and collisions caused by staff touching the bottles, thereby increasing the stability of the receiving bottles and improving the safety of the device. Attached Figure Description

[0034] The accompanying drawings, which are included to provide a further understanding of the embodiments of the present invention and form part of this application, do not constitute a limitation thereof. In the drawings:

[0035] Figure 1 This is a schematic diagram of the structure of this utility model;

[0036] Figure 2 This is a schematic diagram of the structure of the second placement plate of this utility model;

[0037] Figure 3 This is a schematic diagram of the structure of the card slot component of this utility model;

[0038] Figure 4 This is a schematic diagram of the structure of the first placement plate of this utility model;

[0039] Figure 5 This is a schematic diagram of the position adjustment component of this utility model.

[0040] The attached diagram shows the markings and corresponding component names:

[0041] 1-Supporting frame, 2-First placement platform, 3-Second placement platform, 4-Clamping component, 41-Wedge block, 42-First telescopic rod, 43-First spring, 5-Placement groove, 6-Clamping clip, 7-Position adjustment component, 71-Vertical support block, 711-Limiting groove, 72-Slider, 73-Clamping component, 731-Slide rod, 732-Limiting block, 733-Second telescopic rod, 734-Second spring, 8-Multi-unit electric furnace, 81-Heating tank, 9-Guardrail, 10-Flavor, 11-Distillation tube, 12-Receiving bottle, 13-Rubber pad, 14-Anti-slip convex strip. Detailed Implementation

[0042] To make the objectives, technical solutions, and advantages of this utility model clearer, the present utility model will be further described in detail below with reference to the embodiments and accompanying drawings. The illustrative embodiments and descriptions of this utility model are only used to explain this utility model and are not intended to limit this utility model.

[0043] Example 1

[0044] This embodiment 1 provides an integrated distillation rack, such as Figures 1-3 As shown, it includes:

[0045] Support frame 1 provides support for the entire device;

[0046] The first placement platform 2 is mounted on the support frame 1 and is used to place the flask 10. It is known that the space of the first placement platform 2 is sufficient to hold multiple flasks 10 for use.

[0047] The second placement platform 3, located below the first placement platform 2, is used to place the receiving bottle 12. Similarly, the second placement platform 3 has sufficient space to hold multiple receiving bottles 12, with the number of receiving bottles 12 corresponding to the number of flasks 10. The second placement platform 3 is longer than the first placement platform 2 to facilitate the subsequent placement of the distillation tube 11. In this embodiment, the first placement platform 2 and the second placement platform 3 are used to place all the glassware required for the entire distillation process together, occupying little space and facilitating subsequent distillation operations.

[0048] A locking component 4 is disposed on the second placement platform 3 and is used to lock and fix the receiving bottle 12. In this embodiment, the second placement platform 3 has a placement groove 5, and the locking component 4 is installed in the placement groove 5. The placement groove 5 initially limits the receiving bottle 12, and the locking component 4 further prevents the receiving bottle 12 from falling out of the placement groove 5.

[0049] Furthermore, such as Figure 2 and Figure 3 As shown, the locking component 4 includes a wedge block 41, a first telescopic rod 42, and a first spring 43.

[0050] Multiple wedge blocks 41 are provided, and the multiple wedge blocks 41 are circumferentially slidably arranged in the placement groove 5; the multiple wedge blocks 41 adjust the internal space of the placement groove 5 into an accommodating space that is wider at the top and narrower at the bottom, so that the receiving bottle 12 can easily enter from the top. After entering the placement groove 5, the multiple wedge blocks 41 exert pressure on the receiving bottle 12 to press it tightly.

[0051] The first telescopic rod 42 is connected between the wedge block 41 and the placement groove 5;

[0052] The first spring 43 is sleeved on the first telescopic rod 42 and its two ends are respectively connected to the wedge block 41 and the placement groove 5.

[0053] In this embodiment, there are four wedge blocks 41. It can be seen that the number of wedge blocks 41 is not limited and can be set according to actual needs. The first telescopic rod 42 and the first spring 43 are used in conjunction with the wedge blocks 41. In addition, the placement groove 5 is also circumferentially connected to the sliding groove, and the number of sliding grooves corresponds to the number of wedge blocks 41. The first telescopic rod 42 is installed in the sliding groove.

[0054] The specific work process is as follows:

[0055] When the staff puts the receiving bottle 12 into the placement slot 5, the receiving bottle 12 abuts against the inclined surface of the wedge block 41, and the receiving bottle 12 exerts pressure on each wedge block 41, thereby causing the first telescopic rod 42 to retract and the first spring 43 to be compressed. At this time, the wedge block 41 retracts into the slide groove; at the same time, the first spring 43 exerts pressure on the receiving bottle 12 to lock it.

[0056] When the staff removes the receiving bottle 12 from the placement slot 5, the pressure of the receiving bottle 12 on the wedge block 41 gradually decreases, while the first spring 43 gradually returns to its original position. The first telescopic rod 42 extends under the movement of the wedge block 41, and finally the wedge block 41 returns to its original position.

[0057] The placement slot 5 and the locking component 4 work together to securely place the receiving bottle 12, avoiding the risk of shaking or tilting due to accidental contact by staff.

[0058] Furthermore, each of the wedge-shaped blocks 41 is provided with a rubber pad 13, and the surface of the rubber pad 13 is provided with anti-slip protrusions 14. The rubber pad 13 ensures flexible contact between the wedge-shaped block 41 and the receiving bottle 12; on the other hand, the rubber pad 13 increases the friction between the wedge-shaped block 41 and the receiving bottle 12, making the receiving bottle 12 less prone to slipping. In addition, the addition of the anti-slip protrusions 14 further increases the friction between the two, ensuring the stable placement of the receiving bottle 12 in the placement groove 5.

[0059] Example 2

[0060] In the prior art, the distillation tube 11 is located between the flask 10 and the receiving bottle 12 and needs to be fixed by the clamp 6. However, the distillation tube 11 needs to correspond to the position of the flask 10 and the receiving bottle 12. If they do not correspond, the clamp 6 may need to be adjusted frequently to adjust the position of the distillation tube 11, which is time-consuming, labor-intensive and cumbersome.

[0061] Based on Embodiment 1, this embodiment is configured such that: a clip 6 is installed on one side of the first placement platform 2, and the clip 6 is connected to a position adjustment component 7. Specifically, as shown... Figure 1As shown, the clamp 6 is used to clamp and fix the distillation tube 11. By setting the position adjustment component 7, after the distillation tube 11 is fixed by the clamp 6, the position adjustment component 7 is activated to adjust the position of the clamp 6, and finally adjust the distillation tube 11 to correspond with the position of the flask 10 and the receiving bottle 12.

[0062] Specifically, the position adjustment component 7 includes a vertical support block 71, a slider 72, and a clamping member 73. The vertical support block 71 is mounted on the first placement platform 2. The slider 72 is vertically slidably connected to the vertical support block 71 and fixedly connected to the clamp 6. Specifically, the slider 72 drives the clamp 6 to slide on the vertical support block 71 to adjust the position.

[0063] Multiple limiting slots 711 are provided on both sides of the vertical support block 71; each limiting slot 711 corresponds to a height. The clamping member 73 is disposed on the slider 72 and is used to cooperate with the limiting slots 711 to achieve clamping and fixation. The clamping member 73 cooperates with one of the limiting slots 711 to determine the specific position of the clamp 6. Specifically, when the clamping member 73 is engaged with one of the limiting slots 711, the slider 72 is fixed on the vertical support block 71; when the clamping member 73 disengages from the limiting slot 711, the slider 72 can drive the clamp 6 to slide together, and the clamping member 73 can cooperate with the other limiting slots 711 to adjust the position of the clamp 6.

[0064] In the above process, such as Figure 1 and Figure 5 As shown, the clamping member 73 includes a slide rod 731, a limiting block 732, a second telescopic rod 733, and a second spring 734.

[0065] There are two slide rods 731, both slide rods 731 are slidably connected in the slider 72 and the two slide rods 731 are staggered to form an intersection area;

[0066] There are two limiting blocks 732, and the two limiting blocks 732 are respectively connected to two slide bars 731; for cooperating with the corresponding limiting grooves 711;

[0067] The second telescopic rod 733 is installed in the intersection area between the two sliding rods 731;

[0068] The second spring 734 is sleeved on the second telescopic rod 733 and both ends of the second spring 734 are connected to the two slide rods 731.

[0069] Specifically, the working process of clamping component 73 is as follows:

[0070] The two sliding rods 731 are L-shaped. When adjustment is needed, the operator drives the left sliding rod 731 to slide to the right and the right sliding rod 731 to slide to the left. At the same time, the second telescopic rod 733 retracts, and the second spring 734 is compressed. At this time, the sliding rod 731 drives the corresponding limiting block 732 to move. The two limiting blocks 732 move apart and disengage from the limiting groove 711. At this time, the slider 72 moves on the vertical support block 71 and drives the clamp 6 to move.

[0071] After being adjusted to the appropriate position, when the operator releases the two sliding rods 731, the second spring 734 resets and drives the left sliding rod 731 to slide to the left and the right sliding rod 731 to slide to the right. At this time, the two clamping blocks, driven by their respective sliding rods 731, extend into the corresponding limiting grooves 711 and are fixed. Finally, the clamp 6 is limited and fixed in the corresponding position.

[0072] Example 3

[0073] Based on Embodiment 1, to ensure the normal heating of the flask 10, this embodiment is configured such that: a heating device is placed inside the first placement platform 2 for heating the flask 10. The heating device is a multi-unit electric furnace 8, and the multi-unit electric furnace 8 is equipped with a heating tank 81 for placing the flask 10. Specifically, as shown... Figure 4 As shown, the first placement platform 2 has a placement cavity inside, and the multi-unit electric furnace 8 is installed in the placement cavity. On the one hand, the multi-unit electric furnace 8 is hidden in the placement cavity, which increases the safety of the overall device. On the other hand, it increases the overall aesthetics. Only the flask 10 is placed on the surface of the first placement platform 2, which ensures that the surface of the first placement platform 2 is cleaner.

[0074] Additionally, the heating tank 81 of the multi-unit electric furnace 8 extends out of the placement cavity, and the flask 10 is placed inside the heating tank 81 for heating. The heating tank 81 provides a certain limit to the flask 10. To further ensure the safety of the flask 10, a protective railing 9 is provided on the outside of the first placement platform 2. Specifically, the protective railing 9 is set around the first placement platform 2 and forms a boundary to prevent the flask 10 from sliding off the first placement platform 2.

[0075] The specific embodiments described above further illustrate the purpose, technical solution, and beneficial effects of this utility model. It should be understood that the above description is only a specific embodiment of this utility model and is not intended to limit the scope of protection of this utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model should be included within the scope of protection of this utility model.

Claims

1. An integrated distillation rack, characterized in that, include: Support frame, The first placement platform, mounted on a support frame, is used to place the flask; Second placement platform; Located below the first placement platform, it is used to place the receiving bottle; The locking component, located on the second placement platform, is used to lock and secure the receiving bottle.

2. The integrated distillation rack according to claim 1, characterized in that, The second placement platform has a placement slot, and the locking component is installed in the placement slot.

3. The integrated distillation rack according to claim 2, characterized in that, The locking component includes a wedge-shaped block, a first telescopic rod, and a first spring. Multiple wedge blocks are provided, and the multiple wedge blocks are circumferentially slidably arranged in the placement groove; The first telescopic rod is connected between the wedge block and the placement groove; The first spring is sleeved on the first telescopic rod and its two ends are respectively connected to the wedge block and the placement groove.

4. The integrated distillation rack according to claim 3, characterized in that, Each of the wedge blocks is provided with a rubber pad, and the surface of the rubber pad is provided with anti-slip ridges.

5. The integrated distillation rack according to claim 1, characterized in that, A clip is installed on one side of the first placement platform, and the clip is connected to a position adjustment component.

6. The integrated distillation rack according to claim 5, characterized in that, The position adjustment assembly includes a vertical support block, a slider, and a clamping element. The vertical support block is installed on the first placement platform, and multiple limiting grooves are provided on both sides of the vertical support block; The slider is vertically slidably connected to the vertical support block and fixedly connected to the clamp; The clamping element is mounted on the slider and is used to cooperate with the limiting groove to achieve clamping and fixing.

7. The integrated distillation rack according to claim 6, characterized in that, The clamping component includes a slide bar, a limiting block, a second telescopic rod, and a second spring. There are two slide bars, both of which are slidably connected within the slider and the two slide bars intersect to form an intersection area. There are two limiting blocks, each connected to a sliding rod, for engaging with corresponding limiting grooves. The second telescopic rod is installed in the intersection area between the two sliding rods; The second spring is sleeved on the second telescopic rod and its two ends are connected to two sliding rods.

8. The integrated distillation rack according to claim 1, characterized in that, The first placement platform contains a heating device for heating the flask.

9. The integrated distillation rack according to claim 8, characterized in that, The heating device is a multi-unit electric furnace, which is equipped with a heating tank for placing flasks.

10. The integrated distillation rack according to claim 1 or 9, characterized in that, A protective railing is installed on the outside of the first placement platform.