CN217835703U - Chemical material transfer mechanism for fine chemical industry - Google Patents

Abstract

The utility model provides a chemical material transfer mechanism for fine chemistry industry, which comprises a body, wherein the body comprises a frame, a push handle, a plurality of mountain-shaped frames and a plurality of rollers, the push handle is movably connected with the left side of the frame, the mountain-shaped frames are fixedly connected with the bottom wall of the frame, the rollers are movably connected with the mountain-shaped frames, the front end and the rear end inside the frame are provided with special-shaped cavities, the special-shaped cavities are in a city wall shape, and the right end of the special-shaped cavities penetrates through the right side wall of the frame; function portion, function portion includes a plurality of locating component, a plurality of supplementary removal subassembly and position control assembly, locating component fixed connection in on the frame inner wall, supplementary removal subassembly both ends respectively swing joint in the heterotypic cavity, and the multiunit supplementary removal subassembly and multiunit the locating component position is crisscross, position control assembly is located the frame right-hand member, its left end is located in the heterotypic cavity, and its upper end with the contact of locating component lower extreme.

Description

Chemical material transfer mechanism for fine chemical industry

Technical Field

The utility model relates to a material transfer technical field, concretely relates to chemical material transport mechanism for fine chemical industry.

Background

Along with the continuous development of fine chemistry industry new materials, the apparatus of chemical industry new materials also obtains continuous development, and wherein the material is stored the transport mechanism and is comparatively common apparatus, and current fine chemistry industry new materials are stored the transport mechanism and are possessed various functions to satisfy the various demands that people used, realize the pluralism, consequently can know that current fine chemistry industry stores the transport mechanism with new chemical materials and has satisfied people's user demand basically, still have following problem.

Traditional device is when the highway section of jolting, and the storage box jolts from top to bottom, very easily takes place the offset to inconvenient storage box's placing if spacing to storage box through the bolt, at every turn take storage box and when placing storage box, then need twist with the help of the instrument and move the bolt, it is comparatively inconvenient, reduced the convenience and the practicality of device, and when storing box weight was great, its position on transport mechanism moved comparatively difficultly.

In view of the above, a chemical material transfer mechanism for fine chemical industry that can solve the above problems is needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a can be fast to the chemical industry of different shapes storage box form fixed and make things convenient for its fine chemical industry with chemical material transfer mechanism who moves on transfer mechanism.

In order to realize the purpose, the utility model discloses a technical scheme is: a chemical material transfer mechanism for fine chemistry industry includes:

the body comprises a frame, a push handle, a plurality of mountain-shaped frames and a plurality of rollers, wherein the push handle is movably connected to the left side of the frame, the mountain-shaped frames are fixedly connected to the bottom wall of the frame, the rollers are movably connected to the mountain-shaped frames, special-shaped cavities are arranged at the front end and the rear end inside the frame, the special-shaped cavities are in a city wall shape, and the right end of the special-shaped cavities penetrates through the right side wall of the frame;

the function portion comprises a plurality of positioning assemblies, a plurality of auxiliary moving assemblies and position adjusting assemblies, the positioning assemblies are fixedly connected to the inner wall of the frame, two ends of each auxiliary moving assembly are movably connected into the special-shaped cavity respectively, the positions of the plurality of groups of auxiliary moving assemblies and the plurality of groups of positioning assemblies are staggered, the position adjusting assemblies are located at the right end of the frame, the left end of each position adjusting assembly is located in the special-shaped cavity, and the upper end of each position adjusting assembly is in contact with the lower end of the corresponding positioning assembly.

Preferably, locating component includes locating plate, multiunit reference column and multiunit spring, and fixed connection is on the inner wall before the frame, back respectively at the locating plate both ends, is equipped with the rectangle on its roof and leads to the groove, and the rectangle leads to and is equipped with a plurality of rectangular holes on the groove diapire, and spring lower extreme fixed connection is on the rectangular hole diapire, and reference column diapire fixed connection is in the spring upper end.

Preferably, supplementary subassembly that removes includes two sets of rectangular blocks, a plurality of compression spring, connecting rod and live-rollers, and the rectangular block is located heterotypic cavity, and compression spring one end fixed connection is on heterotypic cavity roof, and other end fixed connection is on the rectangular block roof, and connecting rod both ends are fixed connection respectively on two rectangular block lateral walls, and the live-rollers rotates to be connected on the connecting rod.

Preferably, the position control subassembly includes U type regulating plate, handle and a plurality of trapezoidal piece, U type regulating plate left end sliding connection in heterotypic cavity, handle fixed connection on U type regulating plate right side wall, a plurality of trapezoidal piece fixed connection on U type regulating plate, and U type regulating plate and rectangular plate contact.

Preferably, the interval between the trapezoidal blocks is the same as the interval between the auxiliary moving assemblies.

Preferably, a locking handle is arranged on the front side wall of the frame, penetrates through the front side wall and is in contact with the U-shaped adjusting plate, and the locking handle is in threaded connection with the frame.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a chemical material transport mechanism for fine chemical industry, its locating component's setting is through the cooperation of a plurality of reference columns and spring for when storing the box and placing its upper end, make it change through the weight of storing the box, reach the purpose that adapts to multiple shape and store the box, the reference column and the spring that do not contact with storing the box simultaneously can restrict the lateral shifting who stores the box again, and then form the rigidity to it.

2. The utility model discloses a chemical material transport mechanism for fine chemical industry, its supplementary removal subassembly and position control assembly's collocation use for store the box when needs remove the transport, can raise position control assembly's actual position through supplementary removal subassembly, built on stilts locating component, be convenient for store the removal of box, and when need not carry the removal, reduce position control assembly's height, make locating component play the effect and form the location to storing the box.

Drawings

Fig. 1 is a schematic view of the overall structure of a chemical material transfer mechanism for fine chemical engineering provided by the present invention;

FIG. 2 is a schematic structural diagram of a positioning assembly according to an embodiment of the present invention;

fig. 3 is a schematic cross-sectional structure diagram of a positioning assembly according to an embodiment of the present invention;

FIG. 4 is a schematic cross-sectional view of the frame according to the embodiment of the present invention;

fig. 5 is a schematic structural diagram of an auxiliary moving assembly according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a position adjusting assembly according to an embodiment of the present invention.

Description of reference numerals:

1. a body; 10. a frame; 100. a cavity; 101. a locking handle; 11. pushing a hand; 12. a mountain-shaped frame; 13. a roller;

2. a functional section; 20. a positioning assembly; 200. positioning a plate; 2000. a rectangular through groove; 2001. a rectangular hole; 201. a positioning column; 202. a spring; 21. an auxiliary moving assembly; 210. a rectangular block; 211. a pressure spring; 212. a connecting rod; 213. a rotating roller; 22. a position adjustment assembly; 220. a U-shaped adjusting plate; 221. a handle; 222. a trapezoidal block;

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 to 6, a chemical material transferring mechanism for fine chemical engineering includes:

the device comprises a body 1, wherein the body 1 comprises a frame 10, a pushing handle 11, a plurality of mountain-shaped frames 12 and a plurality of rollers 13, the pushing handle 11 is movably connected to the left side of the frame 10, the mountain-shaped frames 12 are fixedly connected to the bottom wall of the frame 10, the rollers 13 are movably connected to the mountain-shaped frames 12, special-shaped cavities 100 are arranged at the front end and the rear end inside the frame 10, the special-shaped cavities 100 are in a city wall shape, and the right end of the special-shaped cavities 100 penetrates through the right side wall of the frame 10;

functional part 2, functional part 2 includes a plurality of locating component 20, a plurality of supplementary removal subassembly 21 and position control assembly 22, locating component 20 fixed connection in on the frame 10 inner wall, supplementary removal subassembly 21 both ends respectively swing joint in heterotypic cavity 100, and the multiunit supplementary removal subassembly 21 and multiunit locating component 20 position is crisscross, position control assembly 22 is located frame 10 right-hand member, its left end is located in heterotypic cavity 100, and its upper end with locating component 20 lower extreme contact.

When the storage box is heavier and needs to be pushed onto the frame 10, the U-shaped adjusting plate 220 is pushed towards the pushing handle 11 through the handle 221, the U-shaped adjusting plate 220 and the trapezoid block 222 on the U-shaped adjusting plate are driven to move leftwards, in the moving process, the inclined surface of the trapezoid block 222 is in contact with the rectangular block 210 and lifts the position of the rectangular block 210, the overall height of the auxiliary moving assembly 21 is further raised, the positioning assembly 20 is erected through the height difference between the positioning assembly 20 and the auxiliary moving assembly 21, then the storage box is pushed and moved to a proper position, in the process, due to the existence of the rotating roller 213, the pushing process is easy, then the U-shaped adjusting plate 220 is pulled towards the direction far away from the pushing handle 11 through the handle 221, and along with the position change of the trapezoid block 222, the rectangular block 210 is lowered under the elastic force of the pressure spring 211, the storage box contacts with the positioning component, and forms pressure to the positioning column 201 contacting with its bottom by its own gravity, and further compresses the spring 202, this way makes most of the storage boxes of the shape can obtain the adaptation similar to its shape, and the height difference between the positioning column 201 not contacting with its bottom and the positioning column 201 combining with its bottom roughly forms the fixation to the storage box, it is worth noting, in order to avoid the storage box moving process, because its gravity causes the position adjustment component 22 to change, can carry on the position to the position adjustment component 22 to carry on the position limitation through the locking handle 101 on the sidewall of the frame 10, although only the setting of the single-layer frame 10 has been enumerated in this embodiment, but also can adopt the setting of the multi-layer frame according to the actual use situation.

Specifically, the positioning assembly 20 includes a positioning plate 200, a plurality of positioning columns 201 and a plurality of springs 202, two ends of the positioning plate 200 are respectively and fixedly connected to the front and rear inner walls of the frame 10, a rectangular through groove 2000 is formed on the top wall of the positioning plate, a plurality of rectangular holes 2001 are formed on the bottom wall of the rectangular through groove 2000, the lower ends of the springs 202 are fixedly connected to the bottom walls of the rectangular holes 2001, and the bottom walls of the positioning columns 201 are fixedly connected to the upper ends of the springs 202; the influence of gravity produces pressure and then changes its high mode to reference column 201 when contacting through storage box bottom and reference column 201, comes to carry out the adaptation to the appearance of storing the box, and not with the reference column 201 of storing the box contact and with store the pressure differential between the reference column 201 of box contact can form again and fix the position of storing the box, avoid removing the in-process and appear storing the box and slide the striking or the condition of falling.

Specifically, the auxiliary moving assembly 21 includes two sets of rectangular blocks 210, a plurality of pressure springs 211, a connecting rod 212 and a rotating roller 213, the rectangular blocks 210 are located in the special-shaped cavity 100, one end of each pressure spring 211 is fixedly connected to the top wall of the special-shaped cavity 100, the other end of each pressure spring 211 is fixedly connected to the top wall of the rectangular block 210, two ends of the connecting rod 212 are respectively and fixedly connected to the side walls of the two rectangular blocks 210, and the rotating roller 213 is rotatably connected to the connecting rod 212; the position of the rectangular block 210 has elastic change through the arranged pressure spring 211, so that the switching of different functions through the height difference with the positioning component 20 is realized, and the connecting rod 212 and the rotating roller 213 which is connected with the connecting rod in a rotating way can reduce the difficulty of the storage box moving on the connecting rod, so that a user can quickly adjust the position of the storage box.

Specifically, the position adjusting assembly 22 includes a U-shaped adjusting plate 220, a handle 221 and a plurality of trapezoidal blocks 222, the left end of the U-shaped adjusting plate 220 is slidably connected to the special-shaped cavity 100, the handle 221 is fixedly connected to the right side wall of the U-shaped adjusting plate 220, the plurality of trapezoidal blocks 222 are fixedly connected to the U-shaped adjusting plate 220, and the U-shaped adjusting plate 222 contacts the rectangular plate 210.

Specifically, the pitch between the trapezoidal blocks 222 is the same as the pitch between the auxiliary moving assemblies 21; the same distance is reserved; the contact position of the rectangular block 210 and the position adjusting assembly 22 is changed by the position adjustment of the U-shaped adjusting plate 220, and the height of the positioning assembly 20 is controlled by the height difference of the contact position.

Specifically, a locking handle 101 is arranged on the front side wall of the frame 10, the locking handle 101 penetrates through the front side wall to be in contact with the U-shaped adjusting plate 200, and the locking handle 101 is in threaded connection with the frame 10; in order to prevent the position adjustment assembly 22 from moving during the storage box placement process, which may occur when the position adjustment assembly 22 is properly adjusted, the position adjustment assembly 22 is locked by the locking handle 101.

The present invention has been described in detail with reference to the embodiments, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the scope of knowledge possessed by those skilled in the art.

Claims (6)

1. The utility model provides a chemical material transport mechanism for fine chemistry industry which characterized in that includes:

the device comprises a body (1), wherein the body (1) comprises a frame (10), a push handle (11), a plurality of mountain-shaped frames (12) and a plurality of rollers (13), the push handle (11) is movably connected to the left side of the frame (10), the mountain-shaped frames (12) are fixedly connected to the bottom wall of the frame (10), the rollers (13) are movably connected to the mountain-shaped frames (12), special-shaped cavities (100) are arranged at the front end and the rear end inside the frame (10), the special-shaped cavities (100) are in a city wall shape, and the right ends of the special-shaped cavities penetrate through the right side wall of the frame (10);

functional part (2), functional part (2) include a plurality of locating component (20), a plurality of supplementary removal subassembly (21) and position control subassembly (22), locating component (20) fixed connection in on frame (10) inner wall, supplementary removal subassembly (21) both ends respectively swing joint in heterotypic cavity (100), and the multiunit supplementary removal subassembly (21) and multiunit locating component (20) position is crisscross, position control subassembly (22) are located frame (10) right-hand member, its left end is located in heterotypic cavity (100), and its upper end with locating component (20) lower extreme contact.

2. The chemical material transfer mechanism for the fine chemical industry according to claim 1, wherein:

locating component (20) include locating plate (200), multiunit reference column (201) and multiunit spring (202), locating plate (200) both ends respectively fixed connection in on the preceding, back inner wall of frame (10), be equipped with the rectangle on its roof and lead to groove (2000), the rectangle is led to and is equipped with a plurality of rectangular holes (2001) on groove (2000) diapire, spring (202) lower extreme fixed connection in on rectangular hole (2001) diapire, reference column (201) diapire fixed connection in spring (202) upper end.

3. The chemical material transfer mechanism for the fine chemical industry according to claim 1, wherein:

supplementary subassembly (21) that removes includes two sets of rectangle piece (210), a plurality of compression spring (211), connecting rod (212) and live-rollers (213), rectangle piece (210) are located in heterotypic cavity (100), compression spring (211) one end fixed connection in on heterotypic cavity (100) the roof, other end fixed connection in on rectangle piece (210) the roof, connecting rod (212) both ends respectively fixed connection in two on rectangle piece (210) the lateral wall, live-rollers (213) rotate connect in on connecting rod (212).

4. The fine chemical material transfer mechanism according to claim 3, wherein:

the position adjusting assembly (22) comprises a U-shaped adjusting plate (220), a handle (221) and a plurality of trapezoidal blocks (222), the left end of the U-shaped adjusting plate (220) is connected in the special-shaped cavity (100) in a sliding mode, the handle (221) is fixedly connected to the right side wall of the U-shaped adjusting plate (220), the trapezoidal blocks (222) are fixedly connected to the U-shaped adjusting plate (220), and the U-shaped adjusting plate (220) is in contact with the rectangular blocks (210).

5. The chemical material transfer mechanism for the fine chemical industry according to claim 4, wherein:

the intervals between the trapezoidal blocks (222) are the same as the intervals between the auxiliary moving assemblies (21).

6. The chemical material transfer mechanism for the fine chemical industry according to claim 4, wherein:

be equipped with locking handle (101) on frame (10) preceding lateral wall, locking handle (101) pierce through preceding lateral wall with U type regulating plate (220) contact, just locking handle (101) with frame (10) threaded connection.

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