CN204813471U - Feeding bottle attemperator's feeding bottle location structure - Google Patents

Abstract

The utility model provides a feeding bottle attemperator's feeding bottle location structure belongs to domestic utensil technical field. It has solved the current feeding bottle lower problem of efficiency that adjusts the temperature. This feeding bottle attemperator's feeding bottle location structure, feeding bottle attemperator includes the staving, feeding bottle location structure includes two locating levers, it is connected with two swinging heads to rotate on the lateral wall of staving, two locating levers slide respectively and peg graft in the swinging head, the end that stretches into of two locating levers has all linked firmly the U -shaped connecting plate, feeding bottle attemperator still includes two splint, two splint are connected respectively on two connecting plates, be equipped with between locating lever and the swinging head in two locating levers stretch into the staving and can fix the setting element in the swinging head with the locating lever when making two splint press from both sides tight feeding bottle. This feeding bottle attemperator's feeding bottle location structure can fix a position the feeding bottle in the staving, avoids the feeding bottle to rock and drops when adjusting the temperature.

Description

A kind of feeding bottle location structure of feeding bottle register

Technical field

The utility model belongs to life appliance technical field, relates to a kind of feeding bottle location structure of feeding bottle register.

Background technology

Baby all need every day timing carry out lactation; if adopt milk powder to carry out lactation to need in advance milk powder to be soaked; but often there will be soak rear baby do not eat or eaten have remaining; need next time and continue to eat; or the anxious milk powder temperature needing to cause soaking of baby is too high, needing to be cooled rapidly, lowering the temperature as needed cold milk to be then placed in cold water by feeding bottle during the mode of manually carrying out at present; heat as needed hot milk to be then placed in hot water by feeding bottle, but temperature adjustment efficiency is lower.

Summary of the invention

The purpose of this utility model there are the problems referred to above for existing technology, proposes a kind of feeding bottle location structure of feeding bottle register, and feeding bottle can be positioned in staving by the feeding bottle location structure of this feeding bottle register, comes off when avoiding feeding bottle to rock temperature adjustment.

The purpose of this utility model realizes by following technical proposal: a kind of feeding bottle location structure of feeding bottle register, feeding bottle register comprises the staving that upper end has opening, it is characterized in that, described feeding bottle location structure comprises two backstays, the sidewall of described staving is rotatably connected to two rotation pipes, the length direction of this two rotations pipe is consistent with the radial direction of staving, and two rotation pipes are symmetrical arranged, described in two, the sliding plug of backstay difference is in rotation pipe, one end of backstay described in two is all stretched in staving, and the pallet be connected with between two backstays for supporting feeding bottle, described pallet is positioned at the below of two backstays, the inserting end of backstay described in two is all fixed with U-shaped connecting plate, described in two, the recess of connecting plate is relative, described feeding bottle location structure also comprises the curved splint of two strips, clamping plate described in two are connected on two connecting plates, described backstay and rotating to be provided with between pipe and backstay to be fixed on when two backstays to stretch in staving and enable two clamping plate clamp feeding bottle the keeper rotated in pipe.

The upper end of staving has inlet opening, lower end has osculum, when needing temperature adjustment as required, then hot water is injected to staving as needed hot milk, then cold water is injected to staving as needed cold milk, water is entered by inlet opening, osculum is discharged, water realizes circulation in staving, water can certainly be placed in staving and carry out temperature adjustment, during use, the feeding bottle that milk is housed is placed in staving, namely milk powder is placed on pallet, pallet makes feeding bottle before being clamped, have the height keeping setting, manually in staving, promote backstay, backstay moves axially and makes two clamping plate clamping feeding bottle periphery walls, now backstay can be fixed on and rotate in pipe by keeper, namely the location to feeding bottle is achieved, convenient to operation.

In the feeding bottle location structure of above-mentioned feeding bottle register, also comprise two pressure pins, on one end periphery wall that described backstay stretches into staving, radial direction offers connecting hole, nut is fixed with in described connecting hole, described pressure pin one end periphery wall has external screw thread, and pressure pin passes nut and coordinates with nut thread, the lower end of described pallet and wherein a pressure pin is rotationally connected, the downside of described pallet has bar-shaped trough, described in another root, the lower end of pressure pin is rotatably connected to slide bar, and described sliding bar is plugged in bar-shaped trough.Namely pallet is connected horizontally on the below of backstay by two pressure pins, for supporting feeding bottle, certainly according to milk amounts different in the feeding bottle of different size size and feeding bottle, pressure pin can be rotated, the upper end of pressure pin coordinates with nut thread, therefore, it is possible to the height of adjusting tray, make, between feeding bottle and staving bottom surface, there is suitable distance, when avoiding rotating, feeding bottle and inner wall of barrel collide, also in the water making the milk in feeding bottle can fully be immersed in staving, and a pressure pin is connected on pallet by slide bar, pallet is supported, when two push rod relative movements, this pressure pin can move by opposing tray simultaneously.

In the feeding bottle location structure of above-mentioned feeding bottle register, described pallet offers some water holes, pallet upper side has some columnar stays blocks.Water hole and back-up block make to contact with water constituent bottom feeding bottle, increase heat exchange area, improve temperature adjustment efficiency.

In the feeding bottle location structure of above-mentioned feeding bottle register, described rotation pipe internal perisporium offers link slot along its length, described backstay periphery wall has contiguous block, described contiguous block is slidably connected in link slot, in described rotation pipe, also sliding plug has push rod, the port, outer end of described rotation pipe is fixed with fairlead, the outer end of described backstay is positioned at rotates pipe, and spliced eye is offered vertically on the end face of outer end, one end of described push rod is stretched out through fairlead and is rotated pipe, the other end is plugged in the spliced eye of backstay, tensioning spring is provided with in described spliced eye, one end of this tensioning spring is connected on push rod end face, the other end is connected on spliced eye bottom surface.Namely backstay and rotation pipe to be coordinated with link slot by contiguous block and realize spline joint, and backstay realizes moving axially by push rod, between backstay and push rod, tensioning spring is set, namely backstay is merely able to be fixed by keeper in the position of setting, the feeding bottle of different size size is then regulated by tensioning spring, when making the feeding bottle of different size size put into staving, clamping plate can be clamped on feeding bottle periphery wall all the time, also avoid clamping plate to sustain damage to the excessive feeding bottle that causes of feeding bottle clamping force.

In the feeding bottle location structure of above-mentioned feeding bottle register, described keeper comprises retainer spring and place kick, described contiguous block offers blind hole on the side of link slot bottom surface, described link slot bottom surface offers locating slot, described retainer spring and place kick are positioned at blind hole, and one end of retainer spring is pressed on blind hole bottom surface, the other end is pressed in place kick, under the effect of retainer spring, place kick can be pressed in locating slot, when place kick is pressed in locating slot, two above-mentioned clamping plate clamping feeding bottles.When backstay moves axially and makes place kick be pressed in locating slot, backstay can be axially fixed, when needing to take out feeding bottle, manually pull out push rod, make place kick compression set spring and depart from locating slot, now clamping plate can depart from feeding bottle, convenient to operation.

In the feeding bottle location structure of above-mentioned feeding bottle register, the concave surface of described clamping plate is fixed with some press strips in the width direction, the length direction of this some press strip is consistent with clamping plate length direction, and described press strip adopts elastomeric material to make.Because the axis of feeding bottle periphery wall may exist cambered surface, therefore clamping plate concave surface is arranged the press strip of some elastomeric materials, press strip can be out of shape under extrusion, some press strips all can be pressed on feeding bottle periphery wall, simultaneously the press strip of elastomeric material has larger frictional force with feeding bottle periphery wall, also can avoid scuffing feeding bottle periphery wall.

Compared with prior art, the feeding bottle location structure of this feeding bottle register has the following advantages:

1, owing to arranging tensioning spring between backstay and push rod, the feeding bottle of different size size is then regulated by tensioning spring, when making the feeding bottle of different size size put into staving, clamping plate can be clamped on feeding bottle periphery wall all the time, also avoid clamping plate to sustain damage to the excessive feeding bottle that causes of feeding bottle clamping force.

2, owing to clamping plate concave surface being arranged the press strip of some elastomeric materials, press strip can be out of shape under extrusion, some press strips all can be pressed on feeding bottle periphery wall, and simultaneously the press strip of elastomeric material has larger frictional force with feeding bottle periphery wall, also can avoid scuffing feeding bottle periphery wall.

3, owing to pallet offering some water holes, pallet upper side has some columnar stays blocks, water hole and back-up block make to contact with water constituent bottom feeding bottle, increase heat exchange area, improve temperature adjustment efficiency.

Accompanying drawing explanation

Fig. 1 is the perspective view of this feeding bottle register.

Fig. 2 is the schematic enlarged-scale view at A place in Fig. 1.

Fig. 3 is the structure top view of this feeding bottle register.

Fig. 4 is the structure sectional view of this feeding bottle register.

Fig. 5 is the schematic enlarged-scale view at B place in Fig. 4.

Fig. 6 is the schematic enlarged-scale view at C place in Fig. 4.

Fig. 7 is the schematic enlarged-scale view at D place in Fig. 4.

In figure, 1, staving; 11, installation portion; 12, pilot hole; 13, installation cavity; 14, gathering sill; 2, pipe is rotated; 21, link slot; 22, fairlead; 23, locating slot; 3, backstay; 31, connecting plate; 311, chute; 312, positioning convex portion; 313, groove; 314, enlarging; 32, clamping plate; 321, sliding pin; 322, press strip; 323, drive link; 33, nut; 34, pressure pin; 341, slide bar; 35, pallet; 351, bar-shaped trough; 352, water hole; 253, back-up block; 36, contiguous block; 361, blind hole; 362, retainer spring; 363, place kick; 37, push rod; 38, spliced eye; 39, tensioning spring; 4, controls; 41, control stick; 42, tooth bar; 43, gear; 44, roller; 5, bow.

Detailed description of the invention

Be below specific embodiment of the utility model and by reference to the accompanying drawings, the technical solution of the utility model is further described, but the utility model be not limited to these embodiments.

As Fig. 1, Fig. 2, Fig. 3, shown in Fig. 4, a kind of feeding bottle location structure of feeding bottle register, feeding bottle register comprises the staving 1 that upper end has opening, the sidewall of staving 1 is rotatably connected to two rotation pipes 2, the length direction of this two rotations pipe 2 is consistent with the radial direction of staving 1, and two rotation pipes 2 are symmetrical arranged, rotate equal sliding plug in pipe 2 and have backstay 3, and backstay 3 is fixing with rotation pipe 2 circumference, one end of two backstays 3 is all stretched in staving 1, and the pallet 35 be connected with between two backstays 3 for supporting feeding bottle, pallet 35 is positioned at the below of two backstays 3, the inserting end of two backstays 3 is all fixed with U-shaped connecting plate 31, the recess of two connecting plates 31 is relative, feeding bottle location structure comprises the curved splint 32 of two strips, relative two medial surfaces of connecting plate 31 all offer the chute 311 of arc, the two ends of two clamping plate 32 all have sliding pin 321, and sliding pin 321 is slidably connected in chute 311, backstay 3 and rotating to be provided with between pipe 2, when two backstays 3 to stretch in staving 1 and enable two clamping plate 32 clamp feeding bottle, backstay 3 to be fixed on the keeper rotated in pipe 2, when two clamping plate 32 clamp feeding bottle, the end of two connecting plates 31 leans, and two chutes 311 that two connecting plates 31 are positioned at the same side have the identical center of circle, staving 1 is provided with the controls 4 that can drive and rotate pipe 2 reciprocating rotation, the driving member that the sliding pin 321 on clamping plate 32 can be driven to reciprocatingly slide in chute 311 when rotating pipe 2 reciprocating rotation is provided with in staving 1.The upper end of staving 1 has inlet opening, lower end has osculum, when needing temperature adjustment as required, then hot water is injected to staving 1 as needed hot milk, then cold water is injected to staving 1 as needed cold milk, water is entered by inlet opening, osculum is discharged, water realizes circulation in staving 1, water can certainly be placed in staving 1 and carry out temperature adjustment, during use, the feeding bottle that milk is housed is placed in staving 1, namely milk powder is placed on pallet 35, pallet 35 makes feeding bottle before being clamped, have the height keeping setting, manually in staving 1, promote backstay 3, backstay 3 moves axially and makes two clamping plate 32 clamp feeding bottle periphery wall, now backstay 3 can be fixed on and rotate in pipe 2 by keeper, namely the location to feeding bottle is achieved, make to rotate pipe 2 reciprocating rotation by controls 4, rotate pipe 2 to rotate together with backstay 3, therefore feeding bottle can reciprocally swinging along the longitudinal direction, meanwhile, because two chutes 311 being positioned at connecting plate 31 the same side have the same center of circle, and under driving member effect, sliding pin 321 can reciprocatingly slide in chute 311, namely two clamping plate 32 are with feeding bottle reciprocally swinging in the lateral direction, swung by the combination of fore-and-aft direction and left and right directions, the circumference realizing feeding bottle lower end is rocked, namely the milk in feeding bottle can against feeding bottle inwall and carry out vortex flow, the contact area of milk and feeding bottle inwall is made to become large, and the water in feeding bottle lateral wall and staving 1 also has larger contact area, therefore milk carries out quick heat exchange by the water in feeding bottle wall and staving 1, realize high efficiency temperature adjustment.

Specifically, composition graphs 5, shown in Fig. 7, feeding bottle register also comprises two pressure pins 34, on one end periphery wall that backstay 3 stretches into staving 1, radial direction offers connecting hole, nut 33 is fixed with in connecting hole, pressure pin 34 one end periphery wall has external screw thread, and pressure pin 34 through nut 33 and with nut 33 threaded engagement, the lower end of pallet 35 and wherein a pressure pin 34 is rotationally connected, the downside of pallet 35 has bar-shaped trough 351, the lower end of another root pressure pin 34 is rotatably connected to slide bar 341, slide bar 341 sliding plug is in bar-shaped trough 351, pallet 35 offers some water holes 352, pallet 35 upper side have some columnar stays blocks 353, namely pallet 35 is connected horizontally on the below of backstay 3 by two pressure pins 34, for supporting feeding bottle, certainly according to milk amounts different in the feeding bottle of different size size and feeding bottle, pressure pin 34 can be rotated, the upper end of pressure pin 34 and nut 33 threaded engagement, therefore, it is possible to the height of adjusting tray 35, make, between feeding bottle and staving 1 bottom surface, there is suitable distance, when avoiding rotating, feeding bottle and staving 1 inwall collide, also in the water making the milk in feeding bottle can fully be immersed in staving 1, and a pressure pin 34 is connected on pallet 35 by slide bar 341, pallet 35 is supported, when two push rod relative movements, this pressure pin 34 can move by opposing tray 35 simultaneously.Rotate on pipe 2 internal perisporium and offer link slot 21 along its length, backstay 3 periphery wall has contiguous block 36, contiguous block 36 is slidably connected in link slot 21, rotate the interior also sliding plug of pipe 2 and have push rod 37, the port, outer end of rotating pipe 2 is fixed with fairlead 22, the outer end of backstay 3 is positioned at rotates pipe 2, and spliced eye 38 is offered vertically on the end face of outer end, one end of push rod 37 is stretched out through fairlead 22 and is rotated pipe 2, the other end is plugged in the spliced eye 38 of backstay 3, tensioning spring 39 is provided with in described spliced eye 38, one end of this tensioning spring 39 is connected on push rod 37 end face, the other end is connected on spliced eye 38 bottom surface, namely backstay 3 and rotation pipe 2 to be coordinated with link slot 21 by contiguous block 36 and realize spline joint, and backstay 3 realizes moving axially by push rod 37, tensioning spring 39 is set between backstay 3 and push rod 37, namely backstay 3 is merely able to be fixed by keeper in the position of setting, the feeding bottle of different size size is then regulated by tensioning spring 39, when making the feeding bottle of different size size put into staving 1, clamping plate 32 can be clamped on feeding bottle periphery wall all the time, also the excessive feeding bottle that causes of clamping plate 32 pairs of feeding bottle clamping forces is avoided to sustain damage.Keeper comprises retainer spring 362 and place kick 363, contiguous block 36 offers blind hole 361 on the side of link slot 21 bottom surface, bottom surface offers locating slot 23 to link slot 21, retainer spring 362 and place kick 363 are positioned at blind hole 361, and one end of retainer spring 362 is pressed on blind hole 361 bottom surface, the other end is pressed in place kick 363, under the effect of retainer spring 362, place kick 363 can be pressed in locating slot 23, when place kick 363 is pressed in locating slot 23, two above-mentioned clamping plate 32 clamp feeding bottle, when backstay 3 moves axially and makes place kick 363 be pressed in locating slot 23, backstay 3 can be axially fixed, when needing to take out feeding bottle, manually pull out push rod 37, make place kick 363 compression set spring 362 and depart from locating slot 23, now clamping plate 32 can depart from feeding bottle, convenient to operation.The concave surface of clamping plate 32 is fixed with in the width direction some press strips 322, the length direction of this some press strip 322 is consistent with clamping plate 32 length direction, press strip 322 adopts elastomeric material to make, because the axis of feeding bottle periphery wall may exist cambered surface, therefore clamping plate 32 concave surface is arranged the press strip 322 of some elastomeric materials, press strip 322 can be out of shape under extrusion, some press strips 322 all can be pressed on feeding bottle periphery wall, the press strip 322 of elastomeric material has larger frictional force with feeding bottle periphery wall simultaneously, also can avoid scratching feeding bottle periphery wall.

Composition graphs 5, shown in Fig. 6, controls 4 comprises control stick 41, tooth bar 42 and gear 43, staving 1 sidewall has installation portion 11, the upper surface of installation portion 11 vertically offers pilot hole 12, there is in installation portion 11 installation cavity 13, pilot hole 12 is connected with installation cavity 13, wherein one is rotated pipe 2 through installation cavity 13, tooth bar 42 and gear 43 are all positioned at installation cavity 13, and gear 43 is connected on rotation pipe 2, control stick 41 sliding plug is in pilot hole 12, and end to be stretched in installation cavity 13 and is connected mutually with tooth bar 42, tooth bar 42 is meshed with gear 43, namely pilot hole 12 pairs of control sticks 41 realize guiding, manually operate, control stick 41 is vertically moved back and forth, moving up and down of control stick 41 can be with carry-over bar 42 to move, and then the circumferential reciprocating rotation of driven gear 43, namely the reciprocating rotation rotating pipe 2 is realized.The relative two sides of installation cavity 13 all vertically offer gathering sill 14, the dual-side of tooth bar 42 is along being all hinged with two rollers 44, roller 44 is connected in gathering sill 14, tooth bar 42 is connected in gathering sill 14 by roller 44, gathering sill 14 provides guiding for the movement of tooth bar 42, and frictional force is less simultaneously, makes operation lighter, and gathering sill 14 being meshed with gear 43 of also making that tooth bar 42 can be stable, avoid occurring between the two loosening.Driving member comprises two bows 5, this two bow 5 is connected on staving 1 madial wall, two bows 5 are all horizontally disposed with, and there is the identical center of circle, two bows 5 lay respectively at the both sides of backstay 3 axial line, and relative staving 1 axial line of two bows 5 is symmetrical arranged, clamping plate 32 upper edge is vertically fixed with drive link 323, when drive link 323 is to lopsidedness, wherein drive link 323 can lean with the concave surface of a wherein bow 5, when drive link 323 tilts to opposite side, another root drive link 323 can lean with the concave surface of another root bow 5, namely when the effect by rotating pipe 2, when feeding bottle swings towards direction of front and back, two drive links 323 on two clamping plate 32 all tilt to the same side, wherein a drive link 323 can contact with the concave surface of a bow 5, along with the change of pendulum angle is large, the concave surface of bow 5 then leads to drive link 323, its direction towards left and right is tilted, in like manner, when rotating pipe 2 and rotating backward, two drive link 323 homogeneous phase opposite sides tilt, another root drive link 323 contacts with the concave surface of another root bow 5 simultaneously, and another direction of going up in the lateral direction tilts.The two ends end face of wherein one piece of connecting plate 31 all has positioning convex portion 312, the two ends end face of another block connecting plate 31 all offers groove 313, and the notch of groove 313 has enlarging 314, when two clamping plate 32 clamp feeding bottle, positioning convex portion 312 can be plugged in groove 313, guarantee that when two clamping plate 32 clamp feeding bottle two connecting plates 31 can be crossed to lean, namely guarantee that two chutes 311 being positioned at connecting plate 31 the same side have the same center of circle, sliding pin 321 can be slided smoothly in chute 311.

Specific embodiment described herein is only to the explanation for example of the utility model spirit.The utility model person of ordinary skill in the field can make various amendment or supplements or adopt similar mode to substitute to described specific embodiment, but can't depart from spirit of the present utility model or surmount the scope that appended claims defines.

Claims (6)

1. the feeding bottle location structure of a feeding bottle register, feeding bottle register comprises the staving (1) that upper end has opening, it is characterized in that, described feeding bottle location structure comprises two backstays (3), the sidewall of described staving (1) is rotatably connected to two rotation pipes (2), the length direction of this two rotation pipe (2) is consistent with the radial direction of staving (1), and two rotations pipe (2) are symmetrical arranged, backstay described in two (3) respectively sliding plug is managed in (2) in rotation, one end of backstay described in two (3) is all stretched in staving (1), and the pallet (35) be connected with between two backstays (3) for supporting feeding bottle, described pallet (35) is positioned at the below of two backstays (3), the inserting end of backstay described in two (3) is all fixed with U-shaped connecting plate (31), the recess of connecting plate described in two (31) is relative, described feeding bottle location structure also comprises the curved splint (32) of two strips, clamping plate described in two (32) are connected on two connecting plates (31), described backstay (3) and rotating is managed to be provided with between (2), when two backstays (3) to stretch in staving (1) and enable two clamping plate (32) clamp feeding bottle, backstay (3) is fixed on the keeper rotating and manage in (2).

2. the feeding bottle location structure of feeding bottle register according to claim 1, it is characterized in that, also comprise two pressure pins (34), on one end periphery wall that described backstay (3) stretches into staving (1), radial direction offers connecting hole, nut (33) is fixed with in described connecting hole, described pressure pin (34) one end periphery wall has external screw thread, and pressure pin (34) through nut (33) and with nut (33) threaded engagement, the lower end of described pallet (35) and wherein a pressure pin (34) is rotationally connected, the downside of described pallet (35) has bar-shaped trough (351), described in another root, the lower end of pressure pin (34) is rotatably connected to slide bar (341), described slide bar (341) sliding plug is in bar-shaped trough (351).

3. the feeding bottle location structure of feeding bottle register according to claim 2, it is characterized in that, described pallet (35) offers some water holes (352), pallet (35) upper side has some columnar stays blocks (353).

4. the feeding bottle location structure of the feeding bottle register according to Claims 2 or 3, it is characterized in that, described rotation pipe (2) internal perisporium offers link slot (21) along its length, described backstay (3) periphery wall has contiguous block (36), described contiguous block (36) is slidably connected in link slot (21), in described rotation pipe (2), also sliding plug has push rod (37), described port, outer end of rotating pipe (2) is fixed with fairlead (22), the outer end of described backstay (3) is positioned at rotates pipe (2), and on the end face of outer end, offer spliced eye (38) vertically, one end of described push rod (37) is stretched out through fairlead (22) and is rotated pipe (2), the other end is plugged in the spliced eye (38) of backstay (3), tensioning spring (39) is provided with in described spliced eye (38), one end of this tensioning spring (39) is connected on push rod (37) end face, the other end is connected on spliced eye (38) bottom surface.

5. the feeding bottle location structure of feeding bottle register according to claim 4, it is characterized in that, described keeper comprises retainer spring (362) and place kick (363), described contiguous block (36) offers blind hole (361) on the side of link slot (21) bottom surface, described link slot (21) bottom surface offers locating slot (23), described retainer spring (362) and place kick (363) are positioned at blind hole (361), and one end of retainer spring (362) is pressed on blind hole (361) bottom surface, the other end is pressed in place kick (363), under the effect of retainer spring (362), place kick (363) can be pressed in locating slot (23), when place kick (363) is pressed in locating slot (23), two above-mentioned clamping plate (32) clamping feeding bottles.

6. the feeding bottle location structure of feeding bottle register according to claim 5, it is characterized in that, the concave surface of described clamping plate (32) is fixed with in the width direction some press strips (322), the length direction of this some press strip (322) is consistent with clamping plate (32) length direction, and described press strip (322) adopts elastomeric material to make.