CN203545167U - Chamomile frame conveying equipment used in chrysanthemum enzyme deactivation machine - Google Patents

Abstract

The utility model relates to chamomile frame conveying equipment used in a chrysanthemum enzyme deactivation machine. The conveying quantity of chrysanthemum frames is hard to control by means of an existing mode that a conveying chain is adopted. The chamomile frame conveying equipment is characterized in that the chamomile frame conveying equipment comprises a support, a left conveying chain, a left driving gear, a left driven gear, a first left supporting rod, a second left supporting rod, a right conveying chain, a right driving gear, a right driven gear, a first right supporting rod, a second right supporting rod, a left limiting plate, a right limiting plate, a left supporting strip, a right supporting strip and a driving force controller, the driving force controller comprises a rotation shaft, a driving gear, a notch ring, a lug ring, a push-pull ring, a compressing spring and a bearing, the push-pull ring is installed on the lug ring in a sleeved mode, both the first left supporting rod and the second left supporting rod are fixed onto the support, both a first left chain section and a second left chain section are matched with the second left supporting rod, both the left supporting strip and the right supporting strip are fixed onto the support and the left limiting plate is parallel to the right limiting plate. The chamomile frame conveying equipment used in the chrysanthemum enzyme deactivation machine is reasonable in design and high in automation degree.

Description

Tire chrysanthemum material frame load transfer device for fixation machine for chrysanthemum

Technical field

The utility model relates to a kind of tire chrysanthemum material frame load transfer device, especially relate to a kind of tire chrysanthemum material frame load transfer device for fixation machine for chrysanthemum, for delivery of the tire chrysanthemum material frame in fixation machine for chrysanthemum, tire chrysanthemum material frame is for holding the tire chrysanthemum material after completing, and the utility model belongs to parts in fixation machine for chrysanthemum.

Background technology

Fresh tire chrysanthemum needs the operation that completes in the course of processing, tire chrysanthemum material is through after the completing of fixation machine for chrysanthemum, conventionally adopt tire chrysanthemum material frame to hold, tire chrysanthemum material frame is generally rectangular configuration, conventionally adopt at present the mode of a dead lift tire chrysanthemum material frame tire chrysanthemum material frame to be placed into the discharging opening of fixation machine for chrysanthemum, tire chrysanthemum material through completing after operation is dropped in tire chrysanthemum material frame automatically, after the tire chrysanthemum material amount of meeting the requirements of in tire chrysanthemum material frame, by artificial mode, change empty tire chrysanthemum material frame again, and move full tire chrysanthemum material frame to designated area.Owing to need to adopting at present artificial mode tire chrysanthemum material frame to be placed into the discharging opening of fixation machine for chrysanthemum, work capacity is large, inefficiency.

Although also have now, adopt the mode of chain to carry chrysanthemum material frame; but; the mode of existing employing chain is difficult to the operational throughput that actv. is controlled chrysanthemum material frame; often there will be and in needs chrysanthemum material frame, but do not have the conveying of chrysanthemum material frame to come; and when not needing chrysanthemum material frame, have chrysanthemum material frame to carry the situation of coming, what impact was produced normally carries out in order.

Utility model content

The purpose of this utility model is to overcome above shortcomings in prior art, and a kind of reasonable in design is provided, simple to operate, degree of automation is high, be conducive to reduce work capacity, reduce labour intensity, the tire chrysanthemum material frame load transfer device for fixation machine for chrysanthemum of enhancing productivity.

The technical scheme in the invention for solving the above technical problem is: should, for the tire chrysanthemum material frame load transfer device of fixation machine for chrysanthemum, it is characterized in that: comprise support, left chain, left driving gear, left driven gear, the first from left strut bar, the second from left strut bar, right chain, right driving gear, right driven gear, a right strut bar, right No. two strut bars, left limit plate, right limit plate, left support bar, right support bar and propulsive effort controller, described propulsive effort controller comprises rotating shaft, driven wheel, broken ring, projection circle, push-pull ring, handle, stage clip and bearing, described rotating shaft is rack-mount, described driven wheel is arranged in rotating shaft by bearing, one side of described broken ring is provided with several breach, described broken ring is sleeved in rotating shaft, one side of the opposite side of this broken ring and driven wheel is fixed, in described rotating shaft, be provided with gib block, this gib block is along the axial distribution of rotating shaft, the inwall of described projection circle is provided with the guide groove matching with gib block, one side of this projection circle be provided with broken ring in several projections of matching of breach, the outer wall of described projection circle is provided with a circle raised line, this projection snare is contained in rotating shaft, described guide groove and gib block match, described projection and breach match, described push-pull ring is sleeved on projection circle, the internal diameter of this push-pull ring is less than the external diameter of raised line in projection circle, the bottom-hinged of described push-pull ring is on support, one end of described handle is fixed on push-pull ring, described push-pull ring, projection circle, broken ring and driven wheel are arranged in order along the axis direction of rotating shaft, between described projection circle and broken ring, have gap, and described compression spring sleeve is contained in rotating shaft, and this stage clip is between projection circle and broken ring, described the first from left strut bar and the second from left strut bar are all fixed on support, this the first from left strut bar and the second from left strut bar are parallel to each other, described left driving gear is fixed in rotating shaft, described left driven gear is rack-mount, described the first from left strut bar is between left driving gear and left driven gear, described left chain comprises left chain body, the first from left chain segment, the second from left chain segment, the first from left push rod and the second from left push rod, described left chain body is loop configuration, described the first from left chain segment and the second from left chain segment are all connected to a side of left chain body side by side, this the first from left chain segment and the second from left chain segment are evenly distributed on left chain body, the bottom vertical of described the first from left push rod is fixed in the first from left chain segment, this the first from left push rod is cylindrical structural, the diameter of described the first from left push rod is 0.6-0.8cm, the height of this first from left push rod is 3-4cm, the bottom vertical of described the second from left push rod is fixed in the second from left chain segment, this the second from left push rod is cylindrical structural, the diameter of described the second from left push rod is 0.6-0.8cm, the height of this second from left push rod is 3-4cm, described left chain body is arranged on left driving gear and left driven gear, the upper shelf of this left chain body is on the first from left strut bar, described the first from left chain segment and the second from left chain segment all coordinate with the second from left strut bar, a described right strut bar and right No. two strut bars are all fixed on support, No. one, this right side strut bar and right No. two strut bars are parallel to each other, described right driving gear is fixed in rotating shaft, described right driven gear is rack-mount, a described right strut bar is between right driving gear and right driven gear, described right chain comprises right chain body, a right chain segment, right No. two chain segment, a right push rod and right No. two push rods, described right chain body is loop configuration, a described right chain segment and right No. two chain segment are all connected to a side of right chain body side by side, No. one, this right side chain segment and right No. two chain segment are evenly distributed on right chain body, the bottom vertical of a described right push rod is fixed in a right chain segment, No. one, this right side push rod is cylindrical structural, the diameter of a described right push rod is 0.6-0.8cm, the height of this push rod in right side is 3-4cm, the bottom vertical of described right No. two push rods is fixed in right No. two chain segment, No. two, this right side push rod is cylindrical structural, the diameter of described right No. two push rods is 0.6-0.8cm, the height of these No. two push rods in right side is 3-4cm, described right chain body is arranged on right driving gear and right driven gear, the upper shelf of this right chain body is on a right strut bar, a described right chain segment and right No. two chain segment all coordinate with right No. two strut bars, described left chain body and right chain body are parallel to each other, described left support bar and right support bar are all fixed on support, this left support bar and right support bar are parallel to each other, described left chain body and right chain body are all between left support bar and right support bar, the top of the top of described left support bar and left chain body flushes, the top of the top of described right support bar and right chain body flushes, described left limit plate is vertically fixed on left support bar, described right limit plate is vertically fixed on right support bar, and described left limit plate and right limit plate are parallel to each other.

As preferably, projection circle and the gap width between broken ring in propulsive effort controller described in the utility model are 3-6cm.

As preferably, in propulsive effort controller described in the utility model, on broken ring, the quantity of breach is 3-8.

As preferably, a right push rod described in the utility model and right No. two push rods are stainless steel.

As preferably, a right strut bar described in the utility model and right No. two strut bars are stainless steel.

As preferably, the height of left limit plate described in the utility model and right limit plate is 0.5-1.2m.

The utility model compared with prior art, have the following advantages and effect: simple in structure, reasonable in design, easy to use, when left driving gear and right driving gear rotate under external force, left driving gear can drive left chain body to rotate, right driving gear can drive right chain body to rotate, make the first from left push rod and a right push rod, or the second from left push rod and right No. two push rods can push the tire chrysanthemum material frame being superimposed the discharging opening position of fixation machine for chrysanthemum one by one, reduced work capacity, reduced labour intensity, improved work efficiency.

The utility model is because the upper shelf of left chain body is on the first from left strut bar, the first from left chain segment and the second from left chain segment all coordinate with the second from left strut bar, the upper shelf of right chain body is on a right strut bar, a right chain segment and right No. two chain segment all coordinate with right No. two strut bars, make structure of the present utility model more firm, performance is more reliable, can convenient, actv. conveying tire chrysanthemum material frame.

Left support bar in the utility model and right support bar are all fixed on support, and left support bar and right support bar can support the tire chrysanthemum material frame that stack is placed by actv., guarantee that left chain body and right chain body can rotate flexibly and effectively.The tire chrysanthemum material frame stacking up is placed between left limit plate and right limit plate, and left limit plate and right limit plate have carried out spacing to the sway of tire chrysanthemum material frame.

Propulsive effort controller in the utility model can be controlled the rotation situation of chain according to actual needs, what be conducive to produce carries out in order, during use, outside propulsive effort input driven gear, driven wheel is rotated in rotating shaft, under the rotation of driven wheel, drive broken ring to rotate, and chain in fixation machine for chrysanthemum can synchronously rotate with rotating shaft, when needs chain rotates, by the mode of operator's driving handle, thereby the projection in projection circle is embedded to the breach in broken ring, and stage clip is compressed, make broken ring drive projection circle to rotate, under the combined action of the gib block of rotating shaft and the guide groove of projection circle, broken ring can drive rotating shaft to rotate, thereby realize the function that chain rotates, when fixation machine for chrysanthemum does not need chain to rotate, operator only need decontrol handle, and under the effect of stage clip, projection circle is automatically separated with broken ring, and now, broken ring turns in the enterprising line space of rotating shaft.

Accompanying drawing explanation

Fig. 1 is the main TV structure schematic diagram of the tire chrysanthemum material frame load transfer device for fixation machine for chrysanthemum in the utility model embodiment.

Fig. 2 is the plan structure schematic diagram of Fig. 1.

Fig. 3 is the structural representation removing in Fig. 2 after left chain, left driving gear, left driven gear, right chain, right driving gear, right driven gear and propulsive effort controller.

Fig. 4 is the structural representation removing in Fig. 1 after left chain, left driving gear, left driven gear, the first from left strut bar, the second from left strut bar, left limit plate, left support bar and propulsive effort controller.

Fig. 5 is the main TV structure schematic diagram of left chain in the utility model embodiment.

Fig. 6 is the plan structure schematic diagram of Fig. 5.

Fig. 7 is the structural representation of looking up of Fig. 5.

Fig. 8 is the main TV structure schematic diagram of right chain in the utility model embodiment.

Fig. 9 is the plan structure schematic diagram of Fig. 8.

Figure 10 is the structural representation of looking up of Fig. 8.

Figure 11 is the main TV structure schematic diagram of the propulsive effort controller in the utility model embodiment.

Figure 12 is the right TV structure schematic diagram of Figure 11.

Figure 13 is the plan structure schematic diagram of Figure 11.

Figure 14 in Figure 11 pushes away the handle right side, and after push-pull ring is pushed up projection circle to the right, the projection in projection circle is snapped to the structural representation on the breach in broken ring.

The specific embodiment

Below in conjunction with accompanying drawing and by embodiment, the utility model is described in further detail, and following examples are to explanation of the present utility model and the utility model is not limited to following examples.

Embodiment.

Referring to Fig. 1 to Figure 14, the tire chrysanthemum material frame load transfer device for fixation machine for chrysanthemum in the present embodiment comprises support 1, left chain 2, left driving gear 3, left driven gear 4, the first from left strut bar 5, the second from left strut bar 6, right chain 7, right driving gear 8, right driven gear 9, a right strut bar 10, right No. two strut bars 11, left limit plate 12, right limit plate 13, left support bar 14, right support bar 15 and propulsive effort controller 16, wherein, the first from left strut bar 5 and the second from left strut bar 6 are stainless steel, a right strut bar 10 and right No. two strut bars 11 are stainless steel.

Propulsive effort controller 16 in the present embodiment comprises rotating shaft 91, driven wheel 92, broken ring 93, projection circle 94, push-pull ring 95, handle 96, stage clip 97 and bearing 98.Rotating shaft 91 in the present embodiment is arranged on support 1, and rotating shaft 91 can be rotated on support 1.Driven wheel 92 is arranged in rotating shaft 91 by bearing 98, and driven wheel 92 can rotate in rotating shaft 91.In the present embodiment, a side of broken ring 93 is provided with several breach, and broken ring 93 is sleeved in rotating shaft 91, and a side of the opposite side of this broken ring 93 and driven wheel 92 is fixed, and generally, on the utility model broken ring 93, the quantity of breach is 3-8.

In rotating shaft 91 in the present embodiment, be provided with gib block, this gib block is along the axial distribution of rotating shaft 91, the inwall of projection circle 94 is provided with the guide groove matching with gib block, one side of this projection circle 94 be provided with broken ring 93 in several projections of matching of breach, the outer wall of projection circle 94 is provided with a circle raised line, this projection circle 94 is sleeved in rotating shaft 91, and guide groove and gib block match, and makes the rotation of projection circle 94 can drive rotating shaft 91 to rotate; Projection and breach match, and projection can be just in time embedded in breach.

Push-pull ring 95 in the present embodiment is sleeved on projection circle 94, the internal diameter of this push-pull ring 95 is less than the external diameter of raised line in projection circle 94, when push-pull ring 95 is promoted towards a side of projection circle 94, push-pull ring 95 can withstand on the raised line of projection circle 94, makes push-pull ring 95 can drive projection circle 94 to move.In the present embodiment, the bottom-hinged of push-pull ring 95 is on support 1, makes push-pull ring 95 can take hinge-point and as the center of circle, carries out sway.In the present embodiment, one end of handle 96 is fixed on push-pull ring 95, and generally, the utility model is fixed on one end of handle 96 at the top of push-pull ring 95.

Push-pull ring 95 in the present embodiment, projection circle 94, broken ring 93 and driven wheel 92 are arranged in order along the axis direction of rotating shaft 91, between projection circle 94 and broken ring 93, there is gap, generally, the gap width between projection circle 94 and broken ring 93 is 3-6cm.Stage clip 97 is sleeved in rotating shaft 91, and this stage clip 97 is between projection circle 94 and broken ring 93, and under the effect of stage clip 97, projection circle 94 can be automatically separated with broken ring 93.

The first from left strut bar 5 in the present embodiment and the second from left strut bar 6 are all fixed on support 1, between this first from left strut bar 5 and the second from left strut bar 6, are parallel to each other.Left driving gear 3 in the present embodiment is fixed in rotating shaft 91, and left driven gear 4 is arranged on support 1, and left driving gear 3 can rotate with rotating shaft 91, and left driven gear 4 can rotate on support 1.The first from left strut bar 5 in the present embodiment is between left driving gear 3 and left driven gear 4, and one end of the first from left strut bar 5 is near left driving gear 3, the other end of this first from left strut bar 5 is near left driven gear 4, but the first from left strut bar 5 does not affect the rotation of left driving gear 3 and left driven gear 4.

Left chain 2 in the present embodiment comprises left chain body 21, the first from left chain segment 22, the second from left chain segment 23, the first from left push rod 24 and the second from left push rod 25, and wherein, the first from left push rod 24 and the second from left push rod 25 are stainless steel.Left chain body 21 in the present embodiment is loop configuration, and left chain body 21 is an end to end circle, and when left chain body 21 is after to two gears, left chain body 21 can rotate with the rotation of gear.

The first from left chain segment 22 in the present embodiment and the second from left chain segment 23 are all connected to a side of left chain body 21 side by side, it is the side that the first from left chain segment 22 is connected to left chain body 21, and the first from left chain segment 22 and left chain body 21 are side by side, the first from left chain segment 22 can be rotated with the rotation of left chain body 21; The second from left chain segment 23 is connected to a side of left chain body 21, and the second from left chain segment 23 and left chain body 21 be side by side, and the second from left chain segment 23 can be rotated with the rotation of left chain body 21.The first from left chain segment 22 in the present embodiment and the second from left chain segment 23 are the same sides that are positioned at left chain body 21, and the first from left chain segment 22 and the second from left chain segment 23 are evenly distributed on left chain body 21, the first from left chain segment 22 in the utility model and the second from left chain segment 23 are in fact all one section of chains.

In the present embodiment, the bottom vertical of the first from left push rod 24 is fixed in the first from left chain segment 22, said vertical herein, refer to when the first from left chain segment 22 is during in straight configuration, and between the first from left push rod 24 and the first from left chain segment 22, be vertical.The first from left push rod 24 in the present embodiment is cylindrical structural, and the diameter of the first from left push rod 24 is 0.6-0.8cm, is preferably 0.7cm, and the height of this first from left push rod 24 is 3-4cm, is preferably 3.5cm.

In the present embodiment, the bottom vertical of the second from left push rod 25 is fixed in the second from left chain segment 23, said vertical herein, refer to when the second from left chain segment 23 is during in straight configuration, and between the second from left push rod 25 and the second from left chain segment 23, be vertical.The second from left push rod 25 in the present embodiment is cylindrical structural, and the diameter of the second from left push rod 25 is 0.6-0.8cm, is preferably 0.7cm, and the height of this second from left push rod 25 is 3-4cm, is preferably 3.5cm.

Left chain body 21 in the present embodiment is arranged on left driving gear 3 and left driven gear 4, when left driving gear 3 rotates under external force, can drive left chain body 21 and left driven gear 4 to rotate.In the present embodiment, the upper shelf of left chain body 21 is on the first from left strut bar 5, and play a supporting role in the top of 5 pairs of left chain bodies 21 of the first from left strut bar, greatly improved the firmness of structure.The first from left chain segment 22 in the present embodiment and the second from left chain segment 23 all coordinate with the second from left strut bar 6, when left chain body 21 rotates, in the process that the first from left chain segment 22 and the second from left chain segment 23 are rotated with left chain body 21, the first from left chain segment 22 can frame on the second from left strut bar 6, the second from left chain segment 23 also can frame on the second from left strut bar 6, thereby further improved structure firmness.

No. one, right side strut bar 10 in the present embodiment and right No. two strut bars 11 are all fixed on support 1, between No. one, this right side strut bar 10 and right No. two strut bars 11, are parallel to each other.Right driving gear 8 in the present embodiment is fixed in rotating shaft 91, and right driven gear 9 is arranged on support 1, and right driving gear 8 can rotate with rotating shaft 91, and right driven gear 9 can rotate on support 1.No. one, right side strut bar 10 in the present embodiment is between right driving gear 8 and right driven gear 9, and one end of a right strut bar 10 is near right driving gear 8, the other end of this strut bar 10 in right side is near right driven gear 9, but a right strut bar 10 does not affect the rotation of right driving gear 8 and right driven gear 9.

Right chain 7 in the present embodiment comprises right chain body 71, a right chain segment 72, right No. two chain segment 73, a right push rod 74 and right No. two push rods 75, and wherein, a right push rod 74 and right No. two push rods 75 are stainless steel.Right chain body 71 in the present embodiment is loop configuration, and right chain body 71 is an end to end circle, and when right chain body 71 is after to two gears, right chain body 71 can rotate with the rotation of gear.

No. one, right side chain segment 72 in the present embodiment and right No. two chain segment 73 are all connected to a side of right chain body 71 side by side, a right chain segment 72 is connected to a side of right chain body 71, and a right chain segment 72 and right chain body 71 are side by side, a right chain segment 72 can be rotated with the rotation of right chain body 71; Right No. two chain segment 73 are connected to a side of right chain body 71, and right No. two chain segment 73 and right chain body 71 be side by side, and right No. two chain segment 73 can be rotated with the rotation of right chain body 71.No. one, right side chain segment in the present embodiment 72 and right No. two chain segment 73 are the same sides that are positioned at right chain body 71, and a right chain segment 72 and right No. two chain segment 73 are evenly distributed on right chain body 71, No. one, the right side chain segment 72 in the utility model and right No. two chain segment 73 are in fact all one section of chains.

In the present embodiment, the bottom vertical of a right push rod 74 is fixed in a right chain segment 72, said vertical herein, refer to when a right chain segment 72 is during in straight configuration, and between a chain segment 72 of a right push rod 74 and the right side, be vertical.No. one, right side push rod 74 in the present embodiment is cylindrical structural, and the diameter of a right push rod 74 is 0.6-0.8cm, is preferably 0.7cm, and the height of this push rod 74 in right side is 3-4cm, is preferably 3.5cm.

In the present embodiment, the bottom vertical of right No. two push rods 75 is fixed in right No. two chain segment 73, said vertical herein, refer to when right No. two chain segment 73 are during in straight configuration, and between No. two chain segment 73 of right No. two push rods 75 and the right side, be vertical.No. two, right side push rod 75 in the present embodiment is cylindrical structural, and the diameter of right No. two push rods 75 is 0.6-0.8cm, is preferably 0.7cm, and the height of these No. two push rods 75 in right side is 3-4cm, is preferably 3.5cm.

Right chain body 71 in the present embodiment is arranged on right driving gear 8 and right driven gear 9, when right driving gear 8 rotates under external force, can drive right chain body 71 and right driven gear 9 to rotate.In the present embodiment, the upper shelf of right chain body 71 is on a right strut bar 10, and play a supporting role in the top of 10 pairs of right chain bodies 71 of a right strut bar, greatly improved the firmness of structure.No. one, right side chain segment 72 in the present embodiment and right No. two chain segment 73 all coordinate with right No. two strut bars 11, when right chain body 71 rotates, in the process that a right chain segment 72 and right No. two chain segment 73 are rotated with right chain body 71, a right chain segment 72 can frame on right No. two strut bars 11, right No. two chain segment 73 also can frame on right No. two strut bars 11, thereby further improved structure firmness.

Left chain body 21 and right chain body 71 in the present embodiment are parallel to each other, the position of the first from left push rod 24 is corresponding with the position of a right push rod 74, the position of the second from left push rod 25 is corresponding with the position of right No. two push rods 75, in the process that left chain body 21 and right chain body 71 are rotating, the first from left push rod 24 and a right push rod 74 can withstand on tire chrysanthemum material frame simultaneously, and the second from left push rod 25 and right No. two push rods 75 also can withstand on tire chrysanthemum material frame simultaneously.

Left support bar 14 in the present embodiment and right support bar 15 are all fixed on support 1, and this left support bar 14 and right support bar 15 are parallel to each other, and left chain body 21 and right chain body 71 are all between left support bar 14 and right support bar 15.The top of the left support bar 14 in the present embodiment and the top of left chain body 21 flush, the top of the top of right support bar 15 and right chain body 71 flushes, during use, the bottom of tire chrysanthemum material frame is placed on the top of left support bar 14, right support bar 15, left chain body 21 and right chain body 71, left support bar 14 and right support bar 15 can be played a supporting role to tire chrysanthemum material frame, when especially the tire chrysanthemum material frame of stack is more, more can embody supporting role, ensure that left chain body 21 and right chain body 71 rotate flexibly and effectively.Left limit plate 12 in the present embodiment and the height of right limit plate 13 are 0.5-1.2m, left limit plate 12 is vertically fixed on left support bar 14, right limit plate 13 is vertically fixed on right support bar 15, left limit plate 12 and right limit plate 13 are parallel to each other, during use, the tire chrysanthemum material frame stacking up is just placed between left limit plate 12 and right limit plate 13, and the sway of 13 pairs of tire chrysanthemum material frames of left limit plate 12 and right limit plate has been carried out spacing.

Tire chrysanthemum material frame load transfer device in the present embodiment is for delivery of the tire chrysanthemum material frame in fixation machine for chrysanthemum, belong to parts in fixation machine for chrysanthemum, during use, external force drives left driving gear 3 and right driving gear 8 to rotate, the rotation of left driving gear 3 can drive left chain body 21 to rotate, the rotation of right driving gear 8 can drive right chain body 71 to rotate, after the stack of tire chrysanthemum material frame, be placed on left chain body 21, right chain body 71, the top of left chain body 21 and right chain body 71, wherein, left chain body 21 and right chain body 71 have played main supporting role, the tire chrysanthemum material frame stacking up is between left limit plate 12 and right limit plate 13, the sway of 13 pairs of tire chrysanthemum material frames of left limit plate 12 and right limit plate has been carried out spacing.In the tire chrysanthemum material frame stacking up, except a tire chrysanthemum material frame of below, all the other tire chrysanthemum material frames are all withstood by extraneous blend stop in the direction along left chain body 21 and 71 rotations of right chain body, at left chain body 21 and right chain body 71, turn to behind certain position, the first from left push rod 24 and a right push rod 74, or the second from left push rod 25 and right No. two push rods 75 can withstand on a tire chrysanthemum material frame of below, tire chrysanthemum material frame of below is moved with the rotation of left chain body 21 and right chain body 71, thereby realize the object of carrying the tire chrysanthemum material frame in fixation machine for chrysanthemum.Propulsive effort controller 16 in the present embodiment can be controlled chain rotation situation, extraneous drive force driven wheel 92 rotates, by driven wheel 92, drive broken ring 93 to rotate, by artificial driving handle 96, drive projection circle 94 to move to broken ring 93 push-pull ring 95, stage clip 97 is compressed, and projection in projection circle 94 embeds in the breach of broken ring 93, make broken ring 93 drive projection circle 94 to rotate, under the combined action of the gib block of rotating shaft 91 and the guide groove of projection circle 94, by projection circle 94, drive rotating shaft 91 to rotate again, thereby realize the object that chain rotates, when chain does not need to rotate, only need to decontrol handle 96, under the effect of stage clip 97, projection circle 94 is flicked, and makes projection circle 94 separated with broken ring 93, and now, driven wheel 92 and broken ring 93 are in rotating shaft 91 idle running, and chain stops operating.

In addition, it should be noted that, the specific embodiment described in this specification sheets, the shape of its parts and components, institute's title of being named etc. can be different, and the above content described in this specification sheets is only to the explanation of the utility model structure example.All equivalence variation or simple change of doing according to described structure, feature and the principle of the utility model patent design, are included in the protection domain of the utility model patent.The utility model person of ordinary skill in the field can make various modifications or supplements or adopt similar mode to substitute described specific embodiment; only otherwise depart from structure of the present utility model or surmount this scope as defined in the claims, all should belong to protection domain of the present utility model.

Claims (6)

1. for a tire chrysanthemum material frame load transfer device for fixation machine for chrysanthemum, it is characterized in that: comprise support, left chain, left driving gear, left driven gear, the first from left strut bar, the second from left strut bar, right chain, right driving gear, right driven gear, a right strut bar, right No. two strut bars, left limit plate, right limit plate, left support bar, right support bar and propulsive effort controller, described propulsive effort controller comprises rotating shaft, driven wheel, broken ring, projection circle, push-pull ring, handle, stage clip and bearing, described rotating shaft is rack-mount, described driven wheel is arranged in rotating shaft by bearing, one side of described broken ring is provided with several breach, described broken ring is sleeved in rotating shaft, one side of the opposite side of this broken ring and driven wheel is fixed, in described rotating shaft, be provided with gib block, this gib block is along the axial distribution of rotating shaft, the inwall of described projection circle is provided with the guide groove matching with gib block, one side of this projection circle be provided with broken ring in several projections of matching of breach, the outer wall of described projection circle is provided with a circle raised line, this projection snare is contained in rotating shaft, described guide groove and gib block match, described projection and breach match, described push-pull ring is sleeved on projection circle, the internal diameter of this push-pull ring is less than the external diameter of raised line in projection circle, the bottom-hinged of described push-pull ring is on support, one end of described handle is fixed on push-pull ring, described push-pull ring, projection circle, broken ring and driven wheel are arranged in order along the axis direction of rotating shaft, between described projection circle and broken ring, have gap, and described compression spring sleeve is contained in rotating shaft, and this stage clip is between projection circle and broken ring, described the first from left strut bar and the second from left strut bar are all fixed on support, this the first from left strut bar and the second from left strut bar are parallel to each other, described left driving gear is fixed in rotating shaft, described left driven gear is rack-mount, described the first from left strut bar is between left driving gear and left driven gear, described left chain comprises left chain body, the first from left chain segment, the second from left chain segment, the first from left push rod and the second from left push rod, described left chain body is loop configuration, described the first from left chain segment and the second from left chain segment are all connected to a side of left chain body side by side, this the first from left chain segment and the second from left chain segment are evenly distributed on left chain body, the bottom vertical of described the first from left push rod is fixed in the first from left chain segment, this the first from left push rod is cylindrical structural, the diameter of described the first from left push rod is 0.6-0.8cm, the height of this first from left push rod is 3-4cm, the bottom vertical of described the second from left push rod is fixed in the second from left chain segment, this the second from left push rod is cylindrical structural, the diameter of described the second from left push rod is 0.6-0.8cm, the height of this second from left push rod is 3-4cm, described left chain body is arranged on left driving gear and left driven gear, the upper shelf of this left chain body is on the first from left strut bar, described the first from left chain segment and the second from left chain segment all coordinate with the second from left strut bar, a described right strut bar and right No. two strut bars are all fixed on support, No. one, this right side strut bar and right No. two strut bars are parallel to each other, described right driving gear is fixed in rotating shaft, described right driven gear is rack-mount, a described right strut bar is between right driving gear and right driven gear, described right chain comprises right chain body, a right chain segment, right No. two chain segment, a right push rod and right No. two push rods, described right chain body is loop configuration, a described right chain segment and right No. two chain segment are all connected to a side of right chain body side by side, No. one, this right side chain segment and right No. two chain segment are evenly distributed on right chain body, the bottom vertical of a described right push rod is fixed in a right chain segment, No. one, this right side push rod is cylindrical structural, the diameter of a described right push rod is 0.6-0.8cm, the height of this push rod in right side is 3-4cm, the bottom vertical of described right No. two push rods is fixed in right No. two chain segment, No. two, this right side push rod is cylindrical structural, the diameter of described right No. two push rods is 0.6-0.8cm, the height of these No. two push rods in right side is 3-4cm, described right chain body is arranged on right driving gear and right driven gear, the upper shelf of this right chain body is on a right strut bar, a described right chain segment and right No. two chain segment all coordinate with right No. two strut bars, described left chain body and right chain body are parallel to each other, described left support bar and right support bar are all fixed on support, this left support bar and right support bar are parallel to each other, described left chain body and right chain body are all between left support bar and right support bar, the top of the top of described left support bar and left chain body flushes, the top of the top of described right support bar and right chain body flushes, described left limit plate is vertically fixed on left support bar, described right limit plate is vertically fixed on right support bar, and described left limit plate and right limit plate are parallel to each other.

2. the tire chrysanthemum material frame load transfer device for fixation machine for chrysanthemum according to claim 1, is characterized in that: projection circle and the gap width between broken ring in described propulsive effort controller are 3-6cm.

3. the tire chrysanthemum material frame load transfer device for fixation machine for chrysanthemum according to claim 1, is characterized in that: in described propulsive effort controller, on broken ring, the quantity of breach is 3-8.

4. the tire chrysanthemum material frame load transfer device for fixation machine for chrysanthemum according to claim 1, is characterized in that: a described right push rod and right No. two push rods are stainless steel.

5. the tire chrysanthemum material frame load transfer device for fixation machine for chrysanthemum according to claim 1, is characterized in that: a described right strut bar and right No. two strut bars are stainless steel.

6. the tire chrysanthemum material frame load transfer device for fixation machine for chrysanthemum according to claim 1, is characterized in that: the height of described left limit plate and right limit plate is 0.5-1.2m.

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