CN214270824U - Anti-interference contrast rack for microbial cell culture - Google Patents

Abstract

The utility model discloses an anti-interference contrast rack for microbial cell culture relates to bioengineering technical field. The utility model discloses a placement mechanism, moving mechanism and fixed establishment, placement mechanism include first fixed plate, and first fixed plate bottom four corners has all linked firmly the supporting leg, and moving mechanism includes first U-shaped board and a plurality of board of placing, places board one end and has linked firmly two sliders about its vertical central line symmetry, and fixed establishment includes fixed disc. The utility model discloses a trample the footboard and make it move down to it rises to drive the connecting rod, it rises to drive the slurcam through the rising of connecting rod, and then it rises to drive the second fixed plate, it breaks away from the joint groove to drive the joint piece through the rising of second fixed plate, thereby it is rotatory to rotate the supporting leg drive and place the board, it drives to place the board and slides to suitable position back along first U-shaped board to stimulate the U-shaped pole, thereby use the stability of contrast rack for the microbial cell culture that increases this anti-interference through joint piece and the cooperation of joint groove.

Description

Anti-interference contrast rack for microbial cell culture

Technical Field

The utility model belongs to the technical field of bioengineering, especially, relate to an anti-interference contrast rack for microbial cell culture.

Background

Cell culture refers to a method for simulating in vivo environment in vitro to enable the in vivo environment to survive, grow, reproduce and maintain main structures and functions, and is also called cell cloning technology, the formal term in biology is cell culture technology, and for the whole bioengineering technology or one of the biotechnology, cell culture is an essential process, cell culture is large-scale cloning of cells, and cell culture technology can be a simple single cell or a few differentiated multiple cells through mass culture of one cell, which is an essential link of cloning technology, and cell culture is cloning of cells, and a placing rack is needed in cell culture, and the existing anti-interference contrast placing rack for microbial cell culture has the following defects:

1. the current anti-interference contrast rack for microbial cell culture can not adjust the height of rack, and can not rotate the rack.

2. The staff need be preoccupied and carry out the contrast work at microbial cell culture contrast in-process to and touch the rack easily and lead to it to cut to one side or collapse, and current anti-interference for microbial cell culture contrast rack does not have fine safeguard measure, can not protect the contrast rack.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an anti-interference contrast rack for microbial cell culture, make it move down through trampling the footboard, thereby it rises to drive the connecting rod, it rises to drive the slurcam through the connecting rod rises, and then it rises to drive the second fixed plate, it breaks away from the joint groove to drive the joint piece through the rise of second fixed plate, thereby it is rotatory to rotate the supporting leg drive and place the board, the drive of pulling U-shaped pole is placed the board and is slided to suitable position back along first U-shaped board, thereby can adjust the height of rack, and can rotate the rack, thereby use the stability of increasing this anti-interference contrast rack for microbial cell culture through joint piece and joint groove cooperation, thereby make at microbial cell culture contrast in-process staff can not touch the rack and lead to its to cut to one side or to collapse.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to an anti-jamming contrast rack for microbial cell culture, including placement mechanism, moving mechanism and fixed establishment, placement mechanism includes first fixed plate, first fixed plate bottom four corners has all linked firmly the supporting leg, moving mechanism includes first U-shaped board and a plurality of board of placing, it has linked firmly two sliders about its vertical central line symmetry to place board one end, fixed establishment includes fixed disc, the fixed disc top has linked firmly the drum along its vertical central line, inside placement mechanism bottom joint is fixed in fixed establishment, moving mechanism activity joint is inside placement mechanism, and the slider is convenient for slide inside the spout, and the supporting leg is convenient for strengthen this anti-jamming contrast rack for microbial cell culture's stability.

Furtherly, four a supporting leg lateral wall has all seted up the spout along its vertical central line, four another lateral wall middle part of supporting leg has all linked firmly the handle, and has linked firmly the second fixed plate bottom four supporting legs, second fixed plate bottom has linked firmly the round bar along its vertical central line, evenly linked firmly four joint pieces on the round bar outer cylinder, drive the second fixed plate through the round bar and rotate, the user is convenient for rotate this anti-jamming contrast rack for microbial cell culture through the handle.

Further, place the board other end and linked firmly the U-shaped pole, and U-shaped pole one end middle part has seted up the standing groove, and U-shaped pole one end middle part closes soon and is connected with fastening bolt, slides through the slider and drives in the spout is inside to place the board and remove, removes the person of facilitating the use and takes its inside microbial cell culture bottle through placing the board.

Further, first U-shaped board passes through the standing groove and slides in that the U-shaped pole is inside and fixed through fastening bolt, and first U-shaped board both ends all link firmly in a first fixed plate and the second fixed plate lateral wall of corresponding position department, thereby use through fastening bolt, U-shaped pole and the cooperation of first U-shaped board and fix the position of placing the board.

Further, the circular hole has been seted up along its vertical central line to the drum inside, four joint grooves have evenly been seted up to the circular hole outer wall, the round bar slides in the circular hole inside, four the equal activity joint of joint piece is in four joint inslots that correspond position department, fixed disc top has linked firmly two backup pads, and two backup pad tops have linked firmly the axis of rotation, fixes the round bar through the drum, thereby uses the stability of increasing this anti-interference contrast rack for microbial cell culture through joint piece and joint groove cooperation, fixes the position of axis of rotation through the backup pad.

Further, the axis of rotation both ends all run through to two backup pad outer walls that correspond position department, and the axis of rotation both ends have all linked firmly the round cap, the axis of rotation middle part is rotated and is connected with the connecting rod, connecting rod one end has linked firmly the footboard, and cup joints on the footboard top and be fixed with the antiskid cover, the connecting rod other end has linked firmly the second U-shaped board, and second U-shaped board open end has linked firmly two slurcam, two the slurcam is connected with the second fixed plate extrusion that corresponds position department, makes it move down through trampling the footboard to drive the connecting rod and rise, drive the slurcam through the connecting rod rises and rise, and then drive the second fixed plate and rise, drive the joint piece through the second fixed plate and break away from the joint groove, thereby it is rotatory to rotate the supporting leg drive and place the board.

The utility model discloses following beneficial effect has:

1. the utility model discloses a trample the footboard and make it move down, thereby it rises to drive the connecting rod, it rises to drive the slurcam through the rising of connecting rod, and then it rises to drive the second fixed plate, it breaks away from the joint groove to rise to drive the joint piece through the second fixed plate, thereby it is rotatory to rotate the supporting leg drive and place the board, through unscrewing fastening bolt, the drive of pulling U-shaped pole is placed the board and is slided to suitable position back along first U-shaped board, thereby it takes to place the inside microbial cell culture bottle of board to screw up fastening bolt, thereby make this anti-interference contrast rack for microbial cell culture, can highly adjust the rack, and can rotate the rack.

2. The utility model discloses a drum is fixed the round bar, thereby uses the stability of increasing this anti-interference contrast rack for microbial cell culture through joint piece and joint groove cooperation, further strengthens the stability of this anti-interference contrast rack for microbial cell culture through the supporting leg to make this anti-interference contrast rack for microbial cell culture, at microbial cell culture contrast in-process staff can not touch the rack and lead to it to cut to one side or collapse.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the placement mechanism of the present invention;

FIG. 3 is a schematic view of the fixing mechanism of the present invention;

fig. 4 is a schematic structural diagram of the moving mechanism of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

100. a placement mechanism; 101. a first fixing plate; 102. supporting legs; 103. a chute; 104. a handle; 105. a second fixing plate; 106. a round bar; 107. a clamping block; 200. a moving mechanism; 201. a first U-shaped plate; 202. placing the plate; 203. a slider; 204. a U-shaped rod; 205. fastening a bolt; 206. a placement groove; 300. a fixing mechanism; 301. fixing the disc; 302. a support plate; 303. a rotating shaft; 304. a round cap; 305. a connecting rod; 306. a pedal; 307. an anti-slip sleeve; 308. a second U-shaped plate; 309. a push plate; 310. a cylinder; 320. a circular hole; 330. a clamping groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-4, the utility model relates to an anti-interference contrast rack for microbial cell culture, which comprises a placement mechanism 100, a moving mechanism 200 and a fixing mechanism 300, wherein the placement mechanism 100 comprises a first fixing plate 101, four corners of the bottom end of the first fixing plate 101 are fixedly connected with supporting legs 102, the moving mechanism 200 comprises a first U-shaped plate 201 and a plurality of placement plates 202, one end of each placement plate 202 is symmetrically and fixedly connected with two sliding blocks 203 about the vertical central line thereof, the fixing mechanism 300 comprises a fixing disc 301, the top end of the fixing disc 301 is fixedly connected with a cylinder 310 along the vertical central line thereof, the bottom end of the placement mechanism 100 is clamped and fixed inside the fixing mechanism 300, the moving mechanism 200 is movably clamped and connected inside the placement mechanism 100, the placing plate 202 can slide up and down along the support leg 102 by sliding the slider 203 inside the chute 103, the stability of the anti-interference microbial cell culture contrast rack is enhanced through the supporting legs 102.

As shown in FIG. 1 and FIG. 4, a side wall of each of four support legs 102 is provided with a sliding groove 103 along a vertical central line thereof, a middle portion of another side wall of each of the four support legs 102 is fixedly connected with a handle 104, a bottom portion of each of the four support legs 102 is fixedly connected with a second fixing plate 105, a bottom end of the second fixing plate 105 is fixedly connected with a round bar 106 along a vertical central line thereof, four clamping blocks 107 are uniformly and fixedly connected to an outer cylindrical surface of the round bar 106, the second fixing plate 105 is driven to rotate by the round bar 106, a user can conveniently rotate the anti-interference contrast rack for microbial cell culture by the handle 104, the other end of the placing plate 202 is fixedly connected with a U-shaped bar 204, a placing groove 206 is formed in a middle portion of one end of the U-shaped bar 204, a fastening bolt 205 is rotatably connected to a middle portion of one end of the U-shaped bar 204, the placing plate 202 is driven to slide in the sliding groove 103 by a sliding block 203, and the placing plate 202 is moved to facilitate the user to take a microbial cell culture bottle therein, the first U-shaped plate 201 slides inside the U-shaped rod 204 through the placing slot 206 and is fixed by the fastening bolt 205, and both ends of the first U-shaped plate 201 are fixedly connected to the side walls of the first fixing plate 101 and the second fixing plate 105 at the corresponding positions, and the fastening bolt 205, the U-shaped rod 204 and the first U-shaped plate 201 are used in cooperation, so as to fix the position of the placing plate 202.

As shown in fig. 2-3, a circular hole 320 is formed in the cylinder 310 along the vertical central line thereof, four clamping grooves 330 are uniformly formed in the outer wall of the circular hole 320, the circular rod 106 slides in the circular hole 320, four clamping blocks 107 are movably clamped in the four clamping grooves 330 at the corresponding positions, two support plates 302 are fixedly connected to the top end of the fixed disc 301, a rotating shaft 303 is fixedly connected to the top ends of the two support plates 302, the circular rod 106 is fixed through the cylinder 310, the clamping blocks 107 and the clamping grooves 330 are used in a matched manner so as to increase the stability of the anti-interference microbial cell culture contrast rack, the position of the rotating shaft 303 is fixed through the support plates 302, both ends of the rotating shaft 303 penetrate through the outer walls of the two support plates 302 at the corresponding positions, both ends of the rotating shaft 303 are fixedly connected with circular caps 304, a connecting rod 305 is rotatably connected to the middle part of the rotating shaft 303, and one end of the connecting rod 305 is fixedly connected with a pedal 306, and the footboard 306 top cup joints and is fixed with antiskid cover 307, the connecting rod 305 other end has linked firmly second U-shaped plate 308, and second U-shaped plate 308 open end has linked firmly two catch bars 309, two catch bars 309 are connected with the second fixed plate 105 extrusion of corresponding position department, make it move down through trampling footboard 306, thereby it rises to drive connecting rod 305, it rises to drive catch bar 309 through connecting rod 305, and then it rises to drive second fixed plate 105, it drives joint piece 107 through second fixed plate 105 rises and breaks away from joint groove 330, thereby it is rotatory to rotate supporting leg 102 and drive and place board 202.

The working principle is as follows:

make it move down through stepping on footboard 306 with the foot, thereby it rises to drive connecting rod 305, it rises to drive slurcam 309 through connecting rod 305, and then it rises to drive second fixed plate 105, it drives joint piece 107 and breaks away from joint groove 330 to rise through second fixed plate 105, thereby it drives to place board 202 through tightly holding handle 104 and loosens footboard 306 after rotatory to the suitable position to make joint piece 107 joint inside joint groove 330 and then fixed through gravity, through unscrewing fastening bolt 205, pulling U-shaped pole 204 drives and places board 202 and slide to the suitable position back along first U-shaped board 201, thereby it takes to the inside microbial cell culture bottle of placing board 202 to screw up fastening bolt 205.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (6)

1. The utility model provides an anti-interference contrast rack for microbial cell culture, is including placing mechanism (100), moving mechanism (200) and fixed establishment (300), its characterized in that: placing mechanism (100) includes first fixed plate (101), first fixed plate (101) bottom four corners has all linked firmly supporting leg (102), moving mechanism (200) include first U-shaped board (201) and a plurality of board (202) of placing, it has linked firmly two slider (203) to place board (202) one end about its vertical central line symmetry, fixing mechanism (300) are including fixed disc (301), fixed disc (301) top has linked firmly drum (310) along its vertical central line, it is inside fixed in fixing mechanism (300) to place mechanism (100) bottom joint, moving mechanism (200) activity joint is inside placing mechanism (100).

2. The anti-interference contrast placement frame for microbial cell culture, according to claim 1, wherein one side wall of each of four support legs (102) is provided with a sliding groove (103) along a vertical center line thereof, the middle portion of the other side wall of each of the four support legs (102) is fixedly connected with a handle (104), the bottoms of the four support legs (102) are fixedly connected with a second fixing plate (105), the bottom end of the second fixing plate (105) is fixedly connected with a round bar (106) along a vertical center line thereof, and four clamping blocks (107) are uniformly fixedly connected to the outer cylindrical surface of the round bar (106).

3. The anti-interference contrast rack for microbial cell culture according to claim 1, wherein the other end of the placing plate (202) is fixedly connected with a U-shaped rod (204), a placing groove (206) is formed in the middle of one end of the U-shaped rod (204), and a fastening bolt (205) is screwed in the middle of one end of the U-shaped rod (204).

4. The anti-interference contrast rack for microbial cell culture, according to claim 3, wherein the first U-shaped plate (201) slides inside the U-shaped rod (204) through the placement groove (206) and is fixed through the fastening bolt (205), and both ends of the first U-shaped plate (201) are fixedly connected to the side walls of the first fixing plate (101) and the second fixing plate (105) at the corresponding positions.

5. The anti-interference contrast placement frame for microbial cell culture, according to claim 2, wherein a circular hole (320) is formed in the cylinder (310) along a vertical center line of the cylinder, four clamping grooves (330) are uniformly formed in the outer wall of the circular hole (320), the circular rod (106) slides in the circular hole (320), four clamping blocks (107) are movably clamped in the four clamping grooves (330) at corresponding positions, the top end of the fixed disc (301) is fixedly connected with two support plates (302), and the top portions of the two support plates (302) are fixedly connected with the rotating shaft (303).

6. The anti-interference contrast placement rack for microbial cell culture, according to claim 5, wherein both ends of the rotation shaft (303) penetrate through the outer walls of the two support plates (302) at the corresponding positions, the two ends of the rotation shaft (303) are fixedly connected with the round caps (304), the middle of the rotation shaft (303) is rotatably connected with the connecting rod (305), one end of the connecting rod (305) is fixedly connected with the pedal (306), the top end of the pedal (306) is fixedly connected with the anti-slip sleeve (307), the other end of the connecting rod (305) is fixedly connected with the second U-shaped plate (308), the open end of the second U-shaped plate (308) is fixedly connected with the two push plates (309), and the two push plates (309) are connected with the second fixing plate (105) at the corresponding positions in an extrusion manner.

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