CN201784993U - Transmission connecting mechanism and sliding conveying device using same - Google Patents

Abstract

The utility model discloses a transmission connecting mechanism and a sliding conveying device using the same. The transmission connecting mechanism comprises a front installation seat and a back installation seat, wherein a power transmitting pin is assembled on the front installation seat and the back installation seat in a rotating mode, the front end of the power transmitting pin is in thrusting fit with the front installation seat, a shaft stem of the power transmitting pin is in sliding fit with a through hole arranged at a corresponding position on the back installation seat, a first limiting pin for limiting the back installation seat along the axial direction of the power transmitting pin is fixedly arranged on the power transmitting pin between the front installation seat and the back installation seat, and a second limiting pin for limiting the back installation seat along the axial direction of the power transmitting pin is fixedly arranged on the force transmitting shaft pin at the back of the through hole on the back installation seat. A first limiting groove and a second limiting groove which respectively correspondingly match with the first limiting pin and the second limiting pin are arranged on the front side and the back side of the through hole on the back installation seat. The transmission connecting mechanism and a sliding conveying device using the same are simple in structure, flexible in adjusting, capable of meeting a design requirement for transmission connection between every two adjacent sliding block groups on a sliding rail.

Description

The slip conveyer of transmission connecting mechanism and use transmission connecting mechanism

Technical field

The utility model relates to a kind of transmission connecting mechanism; The utility model also relates to a kind of slip conveyer that uses transmission connecting mechanism simultaneously.

Background technology

When in processing such as factory building, warehouse and assembling place, transporting product, often realize the product conveying by the slide rail conveyer, the slide rail conveyer comprises supporting base, parallel first slide rail and second slide rail of being provided with on supporting base, constitute the sliding shoe group by parallel two sliding shoes on the slide rail that are divided into, such sliding shoe group has a plurality of, described sliding shoe group axially is slidedly assemblied on the slide rail successively along slide rail, constitutes between the sliding shoe of each sliding shoe group to connect by the pipe link that is connected on the sliding shoe.When behind stationary fixture on the sliding shoe group, then can carry out transporting of multiple product by anchor clamps, each sliding shoe group is moved in order successively the loading and unloading end that is used for loading/unloading products on the slide rail, the staff who is positioned at slide rail loading and unloading end can load onto product and unload, and transports transporting of product thereby finish to treat.

For saving in power is provided with cost, above-mentioned twin shaft conveyer is often by single power driven.According to designing requirement, will move along the straight line of axially doing of slide rail successively according to the setting order on slide rail by single power operated several sliding shoe groups with certain intervals span, the transmission connecting mechanism of this each sliding shoe group that just requires to be provided between each adjacent sliding shoe group to be in transmission connection, this transmission connecting mechanism should keep being rigidly connected of certain adjacent sliding shoe group when quiescence, realize that the straight line of sliding shoe group moves again when dynamic the driving.

The utility model content

The purpose of this utility model provides a kind of transmission connecting mechanism that can satisfy the designing requirement that is in transmission connection between each adjacent sliding shoe group on the slide rail; The utility model also provides a kind of slip conveyer that uses transmission connecting mechanism simultaneously.

The technical scheme of the transmission connecting mechanism that provides in the utility model is: transmission connecting mechanism, it is characterized in that: before comprising, back mount pad, preceding, be rotatably equipped with the power transmission bearing pin on the back mount pad, the front end of this power transmission bearing pin and preceding mount pad cooperate with axial limiting structure thrust between the preceding mount pad by being arranged on the power transmission bearing pin, the perforation bearing fit of corresponding setting on the axle portion of described power transmission bearing pin and the back mount pad, on the described power transmission bearing pin in preceding, set firmly between the back mount pad and be used on the power transmission bearing pin is axial the first spacing spacing bearing pin of back mount pad, on the described power transmission bearing pin in the rear of the perforation on the mount pad set firmly be used for the power transmission bearing pin axially on to the second spacing spacing bearing pin of back mount pad, both sides, the front and back correspondence in perforation on the mount pad of described back is provided with first position-limited trough and second position-limited trough that is used for the first spacing bearing pin and the second spacing bearing pin corresponding matching.

Described axial limiting structure comprises the power transmission bearing pin handle that vertically is installed on the power transmission bearing pin, is provided with on the mount pad to be used for the swing position-limited trough adaptive with power transmission bearing pin handle before described.

Described transmission pivot pin handle, the first spacing bearing pin and the second spacing bearing pin three's axis is positioned at the same plane of described power transmission bearing pin homonymy, and described first position-limited trough and second position-limited trough are all along extending perpendicular to the axial direction of power transmission bearing pin.

The cross-sectional plane of described first position-limited trough and second position-limited trough is U-shaped.

The beneficial effect of transmission connecting mechanism is in the utility model: the utility model transmission connecting mechanism is in transmission connection adjacent two adjacent sliding shoe groups, when two adjacent sliding shoe groups need keep quiescence, rotate the power transmission bearing pin to spacing state, this moment, the second spacing bearing pin matched with second position-limited trough on the back mount pad, be rigidly connected by the power transmission bearing pin between the adjacent two sliding shoe groups, when needs are adjusted the spacing of adjacent two sliding shoe groups, rotate the power transmission bearing pin to sliding mode, second position-limited trough on the second spacing bearing pin and the back mount pad breaks away from fully at this moment, adjacent two sliding shoe groups realize that straight line moves, when the back mount pad drives corresponding sliding shoe group pipe link and moves to desired location, stop to move, again rotate the power transmission bearing pin this moment, the first spacing bearing pin is matched being rigidly connected for quiescence between this moment adjacent two sliding shoe groups with first position-limited trough of back on the mount pad.The utility model is simple and reliable for structure, adjustment is flexible, compact overall structure, but at high speed is realized that spacing is arranged and the transmission of the straight-line motion propulsive effort of sequence requirement is arranged.

The technical scheme of the slipping drive of the use transmission connecting mechanism that the utility model provides is: the slipping drive that uses transmission connecting mechanism, comprise first running rail unit that constitutes by parallel first slide rail that is provided with in pairs and second slide rail, slidable fit has at least one along slide rail sliding shoe group in axial sliding on two one slide rails, this sliding shoe group is made of by the pipe link that is arranged on the sliding shoe two sliding shoes that are slidedly assemblied in respectively on the different slide rails, the homonymy of described first slide rail and second slide rail upwards cooresponding respectively parallel be provided with the 3rd slide rail and the 4th slide rail, the 3rd slide rail and the 4th slide rail constitute second running rail unit, slide rail in described first running rail unit and second running rail unit is staggered, same slidable fit has the sliding shoe group on described second running rail unit, constitute a sliding shoe unit side by side by two sliding shoe groups that are contained in respectively on the different running rail units, sliding shoe group in sliding shoe unit is staggered along direction of slip side by side for this, when this side by side the sliding shoe group in the sliding shoe unit be in and during column position, their pipe link is arranged before and after being along described direction of slip; At the transmission connecting mechanism that is connected along the pipe link that is provided with adjacent sliding shoe group between slide rail each adjacent sliding shoe group on axially with each, before this transmission connecting mechanism comprises, back mount pad, preceding, be provided with the mounting hole that is used for the pipe link corresponding matching on the back mount pad, preceding, be rotatably equipped with the power transmission bearing pin on the back mount pad, the front end of this power transmission bearing pin and preceding mount pad cooperate with axial limiting structure thrust between the preceding mount pad by being arranged on the power transmission bearing pin, the perforation bearing fit of corresponding setting on the axle portion of described power transmission bearing pin and the back mount pad, on the described power transmission bearing pin in preceding, set firmly between the back mount pad and be used on the power transmission bearing pin is axial the first spacing spacing bearing pin of back mount pad, on the described power transmission bearing pin in the rear of the perforation on the mount pad set firmly be used for the power transmission bearing pin axially on to the second spacing spacing bearing pin of back mount pad, both sides, the front and back correspondence in perforation on the mount pad of described back is provided with first position-limited trough and second position-limited trough that is used for the first spacing bearing pin and the second spacing bearing pin corresponding matching.

Slide rail spacing in described first running rail unit equates with slide rail spacing in second running rail unit.

Sliding shoe in described each sliding shoe group cooperates with slide rail by the linear bearing that is arranged in it.

Described axial limiting structure comprises the power transmission bearing pin handle that vertically is installed on the power transmission bearing pin, is provided with on the mount pad to be used for the swing position-limited trough adaptive with power transmission bearing pin handle before described.

Described transmission pivot pin handle, the first spacing bearing pin and the second spacing bearing pin three's axis is positioned at the same plane of described power transmission bearing pin homonymy, and described first position-limited trough and second position-limited trough are all along extending perpendicular to the axial direction of power transmission bearing pin.

Described forward and backward mount pad is formed by upper and lower two splits, be connected by double-screw bolt is removable between the upper and lower split of described forward and backward mount pad, described being used for is provided with upper and lower half slot and formed by corresponding respectively on the corresponding matching face of upper and lower split with the adaptive mounting hole of pipe link.

Use the beneficial effect of the slip conveyer of transmission connecting mechanism to be in the utility model: to be provided with two parallel running rail units that are provided with in the utility model, and constitute a sliding shoe unit side by side by two sliding shoe groups that are contained in respectively on the different running rail units, and it is the sliding shoe group in the same sliding shoe side by side unit is staggered along direction of slip, can the loading and unloading end that sliding shoe group on different running rail units slides into the loading/unloading products of slide rail successively will be arranged alternately like this, make in the pitman shaft adjacent sliding shoe group that the belongs to same sliding shoe side by side unit adjacency side by side that makes progress, be transported the distance of product thereby shorten, be convenient to the staff and unload product apart from the staff.And between each adjacent sliding shoe group, be provided with the transmission connecting mechanism of the pipe link that is in transmission connection, can realize being rigidly connected of quiescence and being in transmission connection of state of kinematic motion of each adjacent sliding shoe group like this.

Description of drawings

Fig. 1 is the structural representation of a kind of embodiment of transmission connecting mechanism in the utility model;

Fig. 2 is the birds-eye view of Fig. 1;

Fig. 3 is the structural representation that uses the slip conveyer of transmission connecting mechanism in the utility model;

Fig. 4 is in structural representation after straight line moves in order for each sliding shoe group in the slip conveyer that uses transmission connecting mechanism in the utility model;

Fig. 5 is the birds-eye view of Fig. 4.

The specific embodiment

As Fig. 1, shown in Figure 2, the utility model transmission connecting mechanism, mount pad 5 and back mount pad 11 before comprising, preceding, be equipped with the pipe link bonded assembly mounting hole 3 that is used for the sliding shoe group on the back mount pad, preceding, be rotatably equipped with power transmission bearing pin 7 on the back mount pad, the front end of this power transmission bearing pin 7 and preceding mount pad 5 cooperate with axial limiting structure thrust between the preceding mount pad by being arranged on the power transmission bearing pin, the perforation bearing fit of corresponding setting on the axle portion of power transmission bearing pin 7 and the back mount pad 11, preceding, the top of back mount pad is installed with front pressuring plate 15 and the rear fender 14 that is used to press-fit the power transmission bearing pin respectively, rear fender 14 by with back back mount pad on deep-slotted chip breaker is set cooperates and be configured for the perforation that cooperates with power transmission bearing pin 7, before between mount pad 5 and the power transmission bearing pin 7 the axial limiting structure of setting comprise the power transmission bearing pin handle 17 that is installed with on the front end with the adaptive power transmission bearing pin 7 of preceding mount pad 5, this power transmission bearing pin handle 17 is perpendicular to power transmission bearing pin 7, front pressuring plate 15 and before on the mount pad 5 and the adaptive place of power transmission bearing pin 7 be provided with and be used for the swing position-limited trough 4 adaptive with power transmission bearing pin handle 17, swing position-limited trough 4 is along extending perpendicular to the axial direction of power transmission bearing pin, power transmission bearing pin handle 17 can the swing position-limited trough 4 in deflection, on power transmission bearing pin 7 with before, be installed with the first spacing bearing pin 6 that is used for axial limiting between the back mount pad, rear end with rear fender 14 on power transmission bearing pin 7 is installed with the second spacing bearing pin 10 that is used for axial limiting, the first spacing bearing pin 6 all keeps vertical with the power transmission bearing pin with the second spacing bearing pin 10, in the present embodiment, power transmission bearing pin handle 17, the first spacing bearing pin 6 and second spacing bearing pin 10 threes are arranged in parallel, and power transmission bearing pin handle 17, the first spacing bearing pin 6 and second spacing bearing pin 10 threes are positioned at the homonymy of power transmission bearing pin 7, mount pad 11 is arranged with first position-limited trough 8 and second position-limited trough 9 that is used for the first spacing bearing pin 6 and second spacing bearing pin 10 corresponding matching in the both sides, front and back of rear fender 14 in the back, all along extending perpendicular to the axial direction of power transmission bearing pin, the cross-sectional plane of described first position-limited trough 8 and second position-limited trough 9 is U-shaped for described first position-limited trough 8 and second position-limited trough 9.As shown in Figure 1, forward and backward mount pad includes split 12 and two splits 13 down, upper and lower split is removable to be connected, and correspondence is provided with upper and lower two half slots respectively on the corresponding matching face of upper and lower two splits, and described mounting hole 3 is made up of cooresponding upper and lower half slot corresponding matching.

The perforation bearing fit of the axle portion of power transmission bearing pin and back mount pad, constitute perforation by the deep-slotted chip breaker corresponding matching that has on arc pressuring plate on the mount pad after being arranged on and the mount pad in the foregoing description, during concrete enforcement, also perforation can be wholely set on the mount pad of back.

In the above-described embodiments, the axial limiting structure thrust that matches by power transmission bearing pin handle and swing position-limited trough between power transmission bearing pin and the preceding mount pad cooperates, also can adopt the thrust structure of other types in the specific implementation, as on preceding mount pad, offering a blind hole, with being installed in the blind hole that the thrust of power transmission bearing pin cooperates, on the power transmission bearing pin, being provided with in addition and being convenient to handle the handle that the power transmission bearing pin rotates and getting final product.

During concrete enforcement, gear pin handle, the first spacing bearing pin and the second spacing bearing pin can not be arranged on the homonymy of power transmission bearing pin, and the three has a certain degree, and guarantees to get final product with cooresponding position-limited trough is corresponding after can be implemented in rotation.

During the utility model work, by forward and backward mount pad of the present utility model cooresponding two sliding shoe groups are connected, the pipe link of sliding shoe group is assemblied in the cooresponding mounting hole, when needs two sliding shoe groups keep quiescence, power transmission bearing pin handle 17 is turned to level attitude, this moment, the second spacing bearing pin 10 matched with second position-limited trough 9 under the driving of power transmission bearing pin 7, at this moment static locking between the corresponding sliding shoe group; When the corresponding sliding shoe group of needs straight-line motion, power transmission bearing pin handle 17 is turned to vertical position, this moment, the second spacing bearing pin 10 was separated with second position-limited trough 9 under the driving of power transmission bearing pin 7, at this moment back mount pad 11 can drive cooresponding sliding shoe group and move along power transmission bearing pin 7 straight lines, after moving to the relevant position, once more with the level attitude of power transmission bearing pin handle 17 rotations, this moment, the first spacing bearing pin 6 matched with first position-limited trough 8 under the driving of power transmission bearing pin 7, realized again accurately locking this moment between the corresponding sliding shoe group.

As Fig. 3, Fig. 4, shown in Figure 5, the utility model uses the slip conveyer of transmission connecting mechanism to comprise parallel first slide rail 41 that is arranged on the supporting base 52, second slide rail 41, the 3rd slide rail 43 and the 4th slide rail 44, each sliding shoe 53 by the linear bearing slidable fit that is provided with in it on slide rail, two sliding shoes that are contained in respectively on two one slide rails constitute a sliding shoe group by the pipe link 55 that is installed in their lower ends, slidable fit has 4 sliding shoe groups on 4 one slide rails, in the present embodiment by the first sliding shoe group, 45 series connected first slide rails 41, second slide rail 42 constitutes first running rail unit, the 3rd sliding shoe group 47 is slidedly assemblied on first running rail unit, by second Slide Group, 46 series connected the 3rd slide rails 43, the 4th slide rail 44 constitutes second running rail unit, the 4th sliding shoe group 48 is slidedly assemblied on second running rail unit, constitute the interlaced arrangement of 4 one slide rails of first running rail unit and second running rail unit, constitute a sliding shoe unit side by side for 46 groups by the first sliding shoe group 45 and the second sliding shoe that are contained in respectively on first running rail unit and second running rail unit, simultaneously constitute another sliding shoe unit side by side by the 3rd sliding shoe group 47 and the 4th sliding shoe group 48 that are contained in respectively on first running rail unit and second running rail unit, sliding shoe group in the same sliding shoe side by side unit is staggered along direction of slip, when the sliding shoe in the same sliding shoe side by side unit is in and during column position, their pipe link is arranged before and after being along sliding shoe group direction of slip.Be provided with the connection structure that is used to install bogey on the top of each sliding shoe, this connection structure is made up of the mounting hole that is arranged at the sliding shoe top, and when specifically implementing, bogey can be anchor clamps.Be provided with transmission connecting mechanism between each adjacent sliding shoe group, this transmission connecting mechanism is connected on the pipe link that cooresponding sliding shoe group below is provided with, shown in transmission connecting mechanism structure as shown in Figure 1 and Figure 2.

In the present embodiment, be separated with the slide rail that belongs in second running rail unit between constituting between two slide rails of first running rail unit, make that the slide rail in two running rail units is staggered.

Transmission connecting mechanism is installed on the pipe link of corresponding adjacent sliding shoe group, when each sliding shoe group is static, it is static to be locked in current location by transmission connecting mechanism, lock by the transmission connecting mechanism 30 that is connected on the pipe link 20,22 between the 4th sliding shoe group 48 and the 3rd sliding shoe group 47, by transmission connecting mechanism 32 lockings that are connected on the pipe link 22,24, lock by the transmission connecting mechanism 34 that is connected on the pipe link 24,55 between the second sliding shoe group 46 and the first sliding shoe group 45 between the 3rd sliding shoe group 47 and the second sliding shoe group 46.

As Fig. 4, shown in Figure 5, during setting in motion, elder generation outwards extracts the power transmission bearing pin handle of transmission connecting mechanism 34 and power transmission bearing pin handle is turned to vertical position, then the promotion lower edge power transmission bearing pin of the second sliding shoe group 46, the 3rd sliding shoe group 47, horizontal actuator force that the 4th sliding shoe group 48 is imported on pipe link 20 and transmission connecting mechanism forward straight line move, and keep spacing distance between the second sliding shoe group, the 3rd sliding shoe group and the 4th sliding shoe group; After the second sliding shoe group 46 moves to control position, the power transmission bearing pin handle of transmission connecting mechanism 34 is turned to level attitude, lock the second sliding shoe group 46 control positioies this moment, repetitive operation operation transmission connecting mechanism 32,30 is finished the motion of the 3rd sliding shoe group, the 4th sliding shoe group.

Claims (10)

1. transmission connecting mechanism, it is characterized in that: before comprising, back mount pad, preceding, be rotatably equipped with the power transmission bearing pin on the back mount pad, the front end of this power transmission bearing pin and preceding mount pad cooperate with axial limiting structure thrust between the preceding mount pad by being arranged on the power transmission bearing pin, the perforation bearing fit of corresponding setting on the axle portion of described power transmission bearing pin and the back mount pad, on the described power transmission bearing pin in preceding, set firmly between the back mount pad and be used on the power transmission bearing pin is axial the first spacing spacing bearing pin of back mount pad, on the described power transmission bearing pin in the rear of the perforation on the mount pad set firmly be used for the power transmission bearing pin axially on to the second spacing spacing bearing pin of back mount pad, both sides, the front and back correspondence in perforation on the mount pad of described back is provided with first position-limited trough and second position-limited trough that is used for the first spacing bearing pin and the second spacing bearing pin corresponding matching.

2. transmission connecting mechanism according to claim 1 is characterized in that: described axial limiting structure comprises the power transmission bearing pin handle that vertically is installed on the power transmission bearing pin, is provided with on the mount pad to be used for the swing position-limited trough adaptive with power transmission bearing pin handle before described.

3. transmission connecting mechanism according to claim 2, it is characterized in that: described transmission pivot pin handle, the first spacing bearing pin and the second spacing bearing pin three's axis is positioned at the same plane of described power transmission bearing pin homonymy, and described first position-limited trough and second position-limited trough are all along extending perpendicular to the axial direction of power transmission bearing pin.

4. transmission connecting mechanism according to claim 3 is characterized in that: the cross-sectional plane of described first position-limited trough and second position-limited trough is U-shaped.

5. use the slipping drive of transmission connecting mechanism, comprise first running rail unit that constitutes by parallel first slide rail that is provided with in pairs and second slide rail, slidable fit has at least one along slide rail sliding shoe group in axial sliding on two one slide rails, this sliding shoe group is made of by the pipe link that is arranged on the sliding shoe two sliding shoes that are slidedly assemblied in respectively on the different slide rails, it is characterized in that: the homonymy of described first slide rail and second slide rail upwards cooresponding respectively parallel be provided with the 3rd slide rail and the 4th slide rail, the 3rd slide rail and the 4th slide rail constitute second running rail unit, slide rail in described first running rail unit and second running rail unit is staggered, same slidable fit has the sliding shoe group on described second running rail unit, constitute sliding shoe unit side by side by two sliding shoe groups that are contained in respectively on the different running rail units, sliding shoe group in sliding shoe unit is staggered along direction of slip side by side for this, when this side by side the sliding shoe group in the sliding shoe unit be in and during column position, their pipe link is arranged before and after being along described direction of slip; At the transmission connecting mechanism that is connected along the pipe link that is provided with adjacent sliding shoe group between slide rail each adjacent sliding shoe group on axially with each, before this transmission connecting mechanism comprises, back mount pad, preceding, be provided with the mounting hole that is used for the pipe link corresponding matching on the back mount pad, preceding, be rotatably equipped with the power transmission bearing pin on the back mount pad, the front end of this power transmission bearing pin and preceding mount pad cooperate with axial limiting structure thrust between the preceding mount pad by being arranged on the power transmission bearing pin, the perforation bearing fit of corresponding setting on the axle portion of described power transmission bearing pin and the back mount pad, on the described power transmission bearing pin in preceding, set firmly between the back mount pad and be used on the power transmission bearing pin is axial the first spacing spacing bearing pin of back mount pad, on the described power transmission bearing pin in the rear of the perforation on the mount pad set firmly be used for the power transmission bearing pin axially on to the second spacing spacing bearing pin of back mount pad, both sides, the front and back correspondence in perforation on the mount pad of described back is provided with first position-limited trough and second position-limited trough that is used for the first spacing bearing pin and the second spacing bearing pin corresponding matching.

6. the slipping drive of use transmission connecting mechanism according to claim 5 is characterized in that: the slide rail spacing in described first running rail unit equates with slide rail spacing in second running rail unit.

7. the slipping drive of use transmission connecting mechanism according to claim 6 is characterized in that: the sliding shoe in described each sliding shoe group cooperates with slide rail by the linear bearing that is arranged in it.

8. the slipping drive of use transmission connecting mechanism according to claim 7, it is characterized in that: described axial limiting structure comprises the power transmission bearing pin handle that vertically is installed on the power transmission bearing pin, is provided with on the mount pad to be used for the swing position-limited trough adaptive with power transmission bearing pin handle before described.

9. the slipping drive of use transmission connecting mechanism according to claim 8, it is characterized in that: described transmission pivot pin handle, the first spacing bearing pin and the second spacing bearing pin three's axis is positioned at the same plane of described power transmission bearing pin homonymy, and described first position-limited trough and second position-limited trough are all along extending perpendicular to the axial direction of power transmission bearing pin.

10. according to the slipping drive of any described use transmission connecting mechanism in the claim 5 to 9, it is characterized in that: described forward and backward mount pad is formed by upper and lower two splits, be connected by double-screw bolt is removable between the upper and lower split of described forward and backward mount pad, described being used for is provided with upper and lower half slot and formed by corresponding respectively on the corresponding matching face of upper and lower split with the adaptive mounting hole of pipe link.

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