CN107173118A - A kind of genetic engineering transgenic experiments plant cultivating device - Google Patents

Abstract

The invention belongs to gene engineering technology field, more particularly to a kind of genetic engineering transgenic experiments plant cultivating device.The technical problem to be solved in the present invention is to provide a kind of time saving and energy saving, not on new plant growth conditions generation influence, make the accurate genetic engineering transgenic experiments plant cultivating device of character judged result.In order to solve the above-mentioned technical problem, the invention provides such a genetic engineering transgenic experiments plant cultivating device, include incubator, water tank, water pump, water inlet pipe, lid, slide rail, sliding block, spring, placing frame, pulley, reducing motor, disk, oscillating rod, drawstring etc.；Incubator passes on left bolted mode and is connected with water tank.The present invention pours the water of equivalent to avoid judging during new plant character the caused tree characteristics error in judgement due to moisture using new plant and source plant, while using multiple apertures by excessive moisture discharge.

Description

A kind of genetic engineering transgenic experiments plant cultivating device

Technical field

Filled the invention belongs to gene engineering technology field, more particularly to a kind of genetic engineering with transgenic experiments plant cultivating Put.

Background technology

Genetic engineering is also known as gene splicing technology and DNA recombinant techniques, is using molecular genetics as theoretical foundation, with molecule Biology and microbiological modernism are means, by the gene of separate sources by the blueprint being pre-designed, are built in vitro Hybrid DNA molecule, is then introduced into living cells, to change biological original hereditary capacity, obtain new varieties, production new product.Base Because engineering technology for the research of the 26S Proteasome Structure and Function of gene provides strong means.

Generally new plant is manufactured with transgenic technology in genetic engineering, and new plant usually requires to carry out with source plant pair Than to determine the character of new plant, new plant needs certain moisture to support it to grow simultaneously, and existing new plant is cultivated Generally artificial operation, troublesome poeration, and the new plant of watering and the moisture that source plant strain growth is poured are inconsistent, easily make new plant Growth conditions are affected, so as to cause the inaccurate shortcoming of the character judged result of new plant, therefore need a kind of province of research and development badly Shi Shengli, influence do not produced on the growth conditions of new plant, make the accurate genetic engineering transgenic experiments of character judged result Plant cultivating device.

The content of the invention

(1) technical problem to be solved

The present invention in order to overcome existing new plant to cultivate to water generally artificial operation, troublesome poeration, and new plant with The moisture that source plant strain growth is poured is inconsistent, the growth conditions of new plant is affected, so as to cause the character of new plant The inaccurate shortcoming of judged result, the technical problem to be solved in the present invention is to provide a kind of time saving and energy saving, not to new plant life Long status produces influence, makes the accurate genetic engineering transgenic experiments plant cultivating device of character judged result.

(2) technical scheme

In order to solve the above-mentioned technical problem, the invention provides such a genetic engineering transgenic experiments plant cultivating Device, include incubator, water tank, water pump, water inlet pipe, lid, slide rail, sliding block, spring, placing frame, pulley, reducing motor, Disk, oscillating rod, drawstring, cavity, servomotor, cam, 7 type guide rods, push rod, fixed stop, elastic component, contact wheel, connecting rod, Fixing axle and oscillating vane, incubator pass on left bolted mode and are connected with water tank, and water tank inner bottom part is connected by bolt The mode connect is connected with water pump, water pump is connected with water inlet pipe by way of flange is connected, and water inlet pipe is passed through on the left of incubator, Incubator top left side is hingedly connected with lid by hinge member, and lid coordinates with incubator, and bottom is provided with incubator Slide rail, the mode that slide rail left end is bolted is connected in incubator inner left wall, and slide rail right-hand member is bolted Mode is connected on the right side of incubator on inwall, three sliding blocks is slidably connected with slide rail, slider top is connected by bolt The mode connect is connected with placing frame, and the placing frame inner bottom part left and right sides is provided between through hole, two sliding blocks and is provided with spring, most The spring one end of left end by way of welding and in incubator left side wall connection, the spring other end by way of welding with The sliding block connection of high order end, the middle spring left and right sides by way of welding and the leftmost side sliding block and middle sliding block Connection, the spring left and right sides of low order end is connected also by the mode of welding with the sliding block of middle sliding block and low order end, most right Drawstring is connected with the right side of the sliding block at end by way of hook, incubator lower right side is provided with through hole, and through hole is located at the right side of slide rail Side, drawstring passes through through hole, and incubator middle and upper part is provided with cavity, and the mode that cavity left end is bolted is connected to incubator On interior left surface, the mode that cavity right-hand member is bolted is connected on the right flank in incubator, and cavity left end passes through The mode of flange connection is connected with water inlet pipe, and the evenly spaced top for being provided with left side wall in pore, incubator of cavity bottom leads to Cross bolted mode and be connected with servomotor and 7 type guide rods, 7 type guide rods are located at the top of servomotor, servomotor The output shaft that rear side is provided with cam, servomotor is connected by shaft coupling with cam, and guide hole is provided with the right side of 7 type guide rods, It is connected with push rod, push rod passes on left bolted mode and is connected with fixed stop, fixed stop and 7 guide hole inner sliding type Elastic component is provided between type guide rod, elastic component left end is connected by way of hook with fixed stop, and elastic component right-hand member passes through The mode of hook is connected with 7 type guide rod madial walls, and push rod left end rotary type is connected with contact wheel, what contact wheel was bolted Mode is connected with push rod, and contact wheel and cam contact, push rod right-hand member are welded with the upper weld of the right side wall in connecting rod, incubator Have and evenly spaced in fixing axle, fixing axle oscillating vane, oscillating vane top and connecting rod are hingedly connected with by hinge member Between be articulated and connected by hinge member, oscillating vane is located at the surface of cavity, and the right side outside incubator is bolted Mode be connected with rear side of reducing motor and pulley, reducing motor and be provided with disk, the output shaft on reducing motor passes through connection Axle device is connected with disk, and the rear side eccentric position of disk is hingedly connected with oscillating rod by hinge member, and oscillating rod passes through hook Mode be connected with drawstring, drawstring bypasses pulley.

Preferably, it is evenly spaced on slide rail to be provided with collector nozzle.

Preferably, incubator bottom right side is provided with delivery port.

Preferably, the bottom left in incubator is slightly above right side.

Preferably, the material of incubator is stainless steel.

Preferably, drawstring is steel wire rope.

Operation principle：When producing new plant using genetic engineering, it is necessary to when cultivating new plant, lid is first opened Son, new plant is placed in placing frame, while source plant can be put into placing frame, so can be to new plant and source Plant is contrasted into long status, when daytime, plant needed sunlight to carry out photosynthesis or carry out respiration, then Lid need not be covered, when plant need not carry out photosynthesis, lid is covered.It is supported to grow when plant needs moisture When, start water pump, the water in water tank is sprayed, turned while starting servomotor by water pump by water inlet pipe and cavity, and from pore Dynamic, servomotor rotational band moving cam is rotated, and when major axis of cam is contacted with contact wheel, push rod is moved right, elastic component compression, When minor axis of cam is contacted with contact wheel, elastic component bounce-back, push rod is to left movement, and such cam rotation is driven by contact wheel and pushed away Bar side-to-side movement, push rod side-to-side movement drivening rod side-to-side movement, because oscillating vane is hingedly connected to admittedly by hinge member On dead axle, and it is articulated and connected between oscillating vane top and connecting rod also by hinge member, so connecting rod side-to-side movement band movable pendulum The water that pore in cavity flows out is blowed for movable vane piece side-to-side movement, oscillating vane side-to-side movement, can make outflow in pore The ejection of water difference angle, it is comprehensive to plant to spray.Then start reducing motor to rotate, reducing motor, which is rotated, drives disk Rotate, disk rotational makes the sliding block of low order end be horizontally slipped on slide rail by oscillating rod and drawstring, due between three sliding blocks Connected by spring, drive middle and high order end sliding block to horizontally slip so the sliding block of low order end horizontally slips, make The water of outflow is sprinkled upon the different parts of plant in pore, and so plant is sprinkled water, while making new plant receive with source plant Equal moisture, makes this factor of moisture not interfere with the growth conditions of new plant and source plant, pours out after appropriate water, closes The aperture outflow that water excessive in water pump, servomotor and reducing motor, placing frame is then opened from its bottom is closed, can so prevent from putting Putting frame bottom ponding excessively causes rotten of plant.When summer, weather was warmmer, can startup servomotor rotate to come to plant Cooled.

Because evenly spaced on slide rail be provided with collector nozzle, collector nozzle will be passed through from the ponding for placing frame bottom outflow Outflow, cocurrent can so prevent ponding to be trapped on slide rail and cause slide rail to get rusty in incubator bottom, make sliding block slide by Resistance.

Because incubator bottom right side is provided with delivery port, the ponding flowed out from slide rail collector nozzle passes through delivery port stream Go out, prevent ponding excessively be trapped in incubator bottom.

Because the bottom left in incubator is slightly above right side, the ponding of incubator inner bottom part can be along incubator The inclined-plane outflow of inner bottom part, reduces the ponding of incubator inner bottom part.

Because the material of incubator is stainless steel, incubator bottom contacts with water, easily got rusty for a long time, so the material of incubator Matter is that stainless steel makes incubator be difficult to get rusty, and is capable of the service life of Extending culture case.

Because drawstring is steel wire rope, the ability to bear of steel wire rope is big, service life of steel wire rope can be made longer.

(3) beneficial effect

The present invention pours the water of equivalent to avoid judging during new plant character due to the original of moisture using new plant and source plant The tree characteristics error in judgement caused by, while discharging excessive moisture using multiple apertures, prevents rotten of plant, simultaneously Reach that energy is time saving and energy saving, do not produce influence to the growth conditions of new plant, make the accurate effect of character judged result.

Brief description of the drawings

Fig. 1 is the first main structure diagram of the invention.

Fig. 2 is second of main structure diagram of the invention.

Fig. 3 is the third main structure diagram of the invention.

Mark in accompanying drawing for：1- incubators, 2- water tanks, 3- water pumps, 4- water inlet pipes, 5- lids, 6- slide rails, 7- sliding blocks, 8- springs, 9- placing frames, 10- apertures, 11- through holes, 12- pulleys, 13- reducing motors, 14- disks, 15- oscillating rods, 16- is drawn Rope, 17- cavitys, 18- pores, 19- servomotors, 20- cams, 21-7 type guide rods, 22- guide holes, 23- push rods, 24- fixes gear Block, 25- elastic components, 26- contact wheels, 27- connecting rods, 28- fixing axles, 29- oscillating vanes, 30- collector nozzles, 31- delivery ports.

Embodiment

The present invention is further illustrated with reference to the accompanying drawings and examples.

Embodiment 1

A kind of genetic engineering transgenic experiments plant cultivating device, as Figure 1-3, include incubator 1, water tank 2, Water pump 3, water inlet pipe 4, lid 5, slide rail 6, sliding block 7, spring 8, placing frame 9, pulley 12, reducing motor 13, disk 14, oscillating rod 15th, drawstring 16, cavity 17, servomotor 19, cam 20,7 type guide rods 21, push rod 23, fixed stop 24, elastic component 25, contact Wheel 26, connecting rod 27, fixing axle 28 and oscillating vane 29, incubator 1 pass on left bolted mode and are connected with water tank 2, water The mode that the inner bottom part of case 2 is bolted is connected with water pump 3, water pump 3 and is connected with water inlet pipe by way of flange is connected 4, water inlet pipe 4 is hingedly connected with lid 5, lid 5 and training through the left side of incubator 1, the top left side of incubator 1 by hinge member Support case 1 to coordinate, bottom is provided with slide rail 6 in incubator 1, and it is left that the mode that the left end of slide rail 6 is bolted is connected to incubator 1 On the inwall of side, the mode that the right-hand member of slide rail 6 is bolted is connected on the right side inwall of incubator 1, is slidably connected on slide rail 6 It is connected to three sliding blocks 7, the mode that the top of sliding block 7 is bolted is connected with placing frame 9, inner bottom part of placing frame 9 or so two Side, which is provided between through hole 11, two sliding blocks 7, is provided with spring 8, and one end of spring 8 of high order end is by way of welding and culture Left side wall connection in case 1, the other end of spring 8 is connected by way of welding with the sliding block 7 of high order end, and middle spring 8 is left Right both sides by way of welding and the leftmost side sliding block 7 and centre sliding block 7 connect, the left and right sides of spring 8 of low order end It is connected also by the mode of welding with the sliding block 7 of middle sliding block 7 and low order end, the right side of sliding block 7 of low order end passes through hook Mode is connected with drawstring 16, and the lower right side of incubator 1 is provided with through hole 11, and through hole 11 is located at the right side of slide rail 6, and drawstring 16 passes through logical Hole 11, the middle and upper part of incubator 1 is provided with cavity 17, and the mode that the left end of cavity 17 is bolted is connected in incubator 1 On left surface, the mode that the right-hand member of cavity 17 is bolted is connected on the right flank in incubator 1, and the left end of cavity 17 passes through The mode of flange connection is connected with water inlet pipe 4, and the bottom even interval of cavity 17 is provided with left side wall in pore 18, incubator 1 The mode that top is bolted is connected with the type guide rod 21 of 19 and 7 type guide rod of servomotor 21,7 and is located at the upper of servomotor 19 Side, the output shaft that the rear side of servomotor 19 is provided with cam 20, servomotor 19 is connected by shaft coupling with cam 20, and 7 The right side of type guide rod 21 is provided with guide hole 22, is connected with push rod 23, push rod 23 passes on left bolt connection the inner sliding type of guide hole 22 Mode be connected between fixed stop 24, the type guide rod 21 of fixed stop 24 and 7 and be provided with elastic component 25, the left end of elastic component 25 leads to The mode for crossing hook is connected with fixed stop 24, and the right-hand member of elastic component 25 is connected by way of hook with the madial wall of 7 type guide rod 21, The left end rotary type of push rod 23 is connected with contact wheel 26, and the mode that contact wheel 26 is bolted is connected with push rod 23, contact wheel 26 contact with cam 20, and the upper weld for the right side wall that the right-hand member of push rod 23 is welded with connecting rod 27, incubator 1 has fixing axle 28, It is evenly spaced in fixing axle 28 that oscillating vane 29 is hingedly connected with by hinge member, the top of oscillating vane 29 and connecting rod 27 it Between be articulated and connected by hinge member, oscillating vane 29 is located at the surface of cavity 17, and the right side outside incubator 1 is connected by bolt The mode connect is connected with reducing motor 13 and pulley 12, and the rear side of reducing motor 13 is provided with disk 14, reducing motor 13 Output shaft is connected by shaft coupling with disk 14, and the rear side eccentric position of disk 14 is hingedly connected with oscillating rod by hinge member 15, oscillating rod 15 is connected by way of hook with drawstring 16, and drawstring 16 bypasses pulley 12.

It is evenly spaced on slide rail 6 to be provided with collector nozzle 30.

The bottom right side of incubator 1 is provided with delivery port 31.

Bottom left in incubator 1 is slightly above right side.

The material of incubator 1 is stainless steel.

Drawstring 16 is steel wire rope.

Operation principle：When producing new plant using genetic engineering, it is necessary to when cultivating new plant, lid is first opened Son 5, new plant is placed in placing frame 9, while source plant can be put into placing frame 9, so can be to new plant With being contrasted into long status for source plant, when daytime plant need sunlight carry out photosynthesis or carry out respiration When, then lid 5 need not be covered, when plant need not carry out photosynthesis, lid 5 is covered.Supported when plant needs moisture When it grows, start water pump 3, water pump 3 sprays the water in water tank 2 by water inlet pipe 4 and cavity 17, and from pore 18, simultaneously Start servomotor 19 to rotate, the rotational band moving cam 20 of servomotor 19 is rotated, when the major axis of cam 20 is contacted with contact wheel 26, Push rod 23 is moved right, and elastic component 25 compresses, and when the short axle of cam 20 is contacted with contact wheel 26, elastic component 25 rebounds, push rod 23 To left movement, such cam 20 is rotated drives the side-to-side movement of push rod 23, the side-to-side movement drivening rod of push rod 23 by contact wheel 26 27 side-to-side movements, because oscillating vane 29 is hingedly connected in fixing axle 28 by hinge member, and the top of oscillating vane 29 with It is articulated and connected between connecting rod 27 also by hinge member, so the side-to-side movement of connecting rod 27 drives the side-to-side movement of oscillating vane 29, pendulum The water that pore 18 in cavity 17 flows out is blowed the side-to-side movement of movable vane piece 29, can make the different angles of water of outflow in pore 18 Ejection, it is comprehensive to plant to spray.Then start reducing motor 13 to rotate, reducing motor 13, which is rotated, drives 14 turns of disk Dynamic, disk 14 is rotated makes the sliding block 7 of low order end be horizontally slipped on slide rail 6 by oscillating rod 15 and drawstring 16, due to three cunnings Connected between block 7 by spring 8, drive middle and high order end sliding block 7 left so the sliding block 7 of low order end horizontally slips It is right to slide, the water of outflow in pore 18 is sprinkled upon the different parts of plant, so plant sprinkled water, while make new plant and Source plant receives equal moisture, this factor of moisture is not interfered with the growth conditions of new plant and source plant, pours out suitable After the water of amount, switch off the pump 3, servomotor 19 and reducing motor 13, the aperture that excessive water is then opened from its bottom in placing frame 9 10 outflows, can so prevent the bottom ponding of placing frame 9 from excessively causing rotten of plant.When summer, weather was warmmer, can only it start Servomotor 19 rotates to cool to plant.

Because evenly spaced on slide rail 6 be provided with collector nozzle 30, the ponding flowed out from the bottom of placing frame 9 will be under The mouth of a river 30 is flowed out, and cocurrent so can prevent ponding to be trapped on slide rail 6 and cause slide rail 6 to get rusty, make cunning in the bottom of incubator 1 Block 7 is slided and is obstructed.

Because the bottom right side of incubator 1 is provided with delivery port 31, the ponding flowed out from the collector nozzle 30 of slide rail 6 passes through water outlet Mouthfuls 31 flow out, prevent ponding excessively be trapped in the bottom of incubator 1.

Because the bottom left in incubator 1 is slightly above right side, the ponding of the inner bottom part of incubator 1 can be along culture The inclined-plane outflow of the inner bottom part of case 1, reduces the ponding of the inner bottom part of incubator 1.

Because the material of incubator 1 is stainless steel, the bottom of incubator 1 contacts with water, easily got rusty for a long time, so incubator 1 Material make incubator 1 be difficult to get rusty for stainless steel, be capable of the service life of Extending culture case 1.

Because drawstring 16 is steel wire rope, the ability to bear of steel wire rope is big, service life of steel wire rope can be made longer.

Embodiment described above only expresses the preferred embodiment of the present invention, and it describes more specific and detailed, but simultaneously Therefore the limitation to the scope of the claims of the present invention can not be interpreted as.It should be pointed out that for one of ordinary skill in the art For, without departing from the inventive concept of the premise, some deformations can also be made, improves and substitutes, these belong to this hair Bright protection domain.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.

Claims (6)

1. a kind of genetic engineering transgenic experiments plant cultivating device, it is characterised in that include incubator (1), water tank (2), water pump (3), water inlet pipe (4), lid (5), slide rail (6), sliding block (7), spring (8), placing frame (9), pulley (12), deceleration Motor (13), disk (14), oscillating rod (15), drawstring (16), cavity (17), servomotor (19), cam (20), 7 type guide rods (21), push rod (23), fixed stop (24), elastic component (25), contact wheel (26), connecting rod (27), fixing axle (28) and swing leaf Piece (29), incubator (1) passes on left bolted mode and is connected with water tank (2), and water tank (2) inner bottom part is bolted Mode be connected with water pump (3), water pump (3) water inlet pipe (4) be connected with by way of flange is connected, water inlet pipe (4) is passed through On the left of incubator (1), incubator (1) top left side is hingedly connected with lid (5), lid (5) and incubator by hinge member (1) coordinate, incubator (1) interior bottom is provided with slide rail (6), and the mode that slide rail (6) left end is bolted is connected to culture In case (1) inner left wall, the mode that slide rail (6) right-hand member is bolted is connected on the right side of incubator (1) on inwall, slide rail (6) mode being bolted at the top of three sliding blocks (7), sliding block (7) is slidably connected with and is connected with placing frame (9), placing frame (9) inner bottom part left and right sides is provided between through hole (11), two sliding blocks (7) and is provided with spring (8), high order end Spring (8) one end be connected by way of welding with the left side wall in incubator (1), spring (8) other end passes through welding Sliding block (7) connection of mode and high order end, middle spring (8) left and right sides by way of welding and the leftmost side sliding block (7) connected with middle sliding block (7), spring (8) left and right sides of low order end is also by the mode of welding and the sliding block (7) of centre Connected with the sliding block (7) of low order end, drawstring (16), incubator are connected with by way of hook on the right side of the sliding block (7) of low order end (1) lower right side is provided with through hole (11), and through hole (11) is located at the right side of slide rail (6), and drawstring (16) passes through through hole (11), incubator (1) middle and upper part is provided with cavity (17), and the mode that cavity (17) left end is bolted is connected to the left side in incubator (1) On face, the mode that cavity (17) right-hand member is bolted is connected on the right flank in incubator (1), and cavity (17) left end leads to The mode for crossing flange connection is connected with water inlet pipe (4), and cavity (17) bottom even interval is provided with pore (18), incubator (1) The mode that the top of interior left side wall is bolted is connected with servomotor (19) and 7 type guide rods (21), and 7 type guide rods (21) are set The output shaft on cam (20), servomotor (19) is provided with rear side of top in servomotor (19), servomotor (19) It is connected by shaft coupling with cam (20), guide hole (22) is provided with the right side of 7 type guide rods (21), is connected guide hole (22) inner sliding type There is push rod (23), push rod (23) passes on left bolted mode and is connected with fixed stop (24), fixed stop (24) and 7 types Elastic component (25) is provided between guide rod (21), elastic component (25) left end is connected by way of hook with fixed stop (24), Elastic component (25) right-hand member is connected by way of hook with 7 type guide rod (21) madial walls, and push rod (23) left end rotary type is connected with Contact wheel (26), the mode that contact wheel (26) is bolted is connected with push rod (23), and contact wheel (26) connects with cam (20) Touch, the upper weld for the right side wall that push rod (23) right-hand member is welded with connecting rod (27), incubator (1) has fixing axle (28), it is fixed It is evenly spaced on axle (28) that oscillating vane (29), oscillating vane (29) top and connecting rod are hingedly connected with by hinge member (27) it is articulated and connected between by hinge member, oscillating vane (29) is located at the surface of cavity (17), the right side of incubator (1) outside The mode that side is bolted is connected with reducing motor (13) and pulley (12), and reducing motor is provided with disk on rear side of (13) (14), the output shaft on reducing motor (13) is connected by shaft coupling with disk (14), and the rear side eccentric position of disk (14) leads to Cross hinge member and be hingedly connected with oscillating rod (15), oscillating rod (15) is connected by way of hook with drawstring (16), drawstring (16) pulley (12) is bypassed.

2. a kind of genetic engineering according to claim 1 transgenic experiments plant cultivating device, it is characterised in that slide rail (6) it is evenly spaced on to be provided with collector nozzle (30).

3. a kind of genetic engineering according to claim 1 transgenic experiments plant cultivating device, it is characterised in that culture Case (1) bottom right side is provided with delivery port (31).

4. a kind of genetic engineering according to claim 1 transgenic experiments plant cultivating device, it is characterised in that culture Bottom left in case (1) is slightly above right side.

5. a kind of genetic engineering according to claim 1 transgenic experiments plant cultivating device, it is characterised in that culture The material of case (1) is stainless steel.

6. a kind of genetic engineering according to claim 1 transgenic experiments plant cultivating device, it is characterised in that drawstring (16) it is steel wire rope.