CN204430663U - Inclined ladder is without code assembly tooling - Google Patents
Inclined ladder is without code assembly tooling Download PDFInfo
- Publication number
- CN204430663U CN204430663U CN201520103096.4U CN201520103096U CN204430663U CN 204430663 U CN204430663 U CN 204430663U CN 201520103096 U CN201520103096 U CN 201520103096U CN 204430663 U CN204430663 U CN 204430663U
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- China
- Prior art keywords
- inclined ladder
- switching mechanism
- fixed
- guide rail
- assembly tooling
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Abstract
The utility model provides a kind of inclined ladder without code assembly tooling, comprising: telescoping mechanism, and described telescoping mechanism comprises multiple flexible slide rail parallel to each other, and described flexible slide rail is used for supporting baffle, and the distance between described multiple flexible slide rail is adjustable; Switching mechanism, for regulating the anglec of rotation of the baffle plate on described flexible slide rail; Frame, described frame has the groove stretched out for described baffle plate.Inclined ladder of the present utility model is without in code assembly tooling, and the inclined ladder angle of marking time and open shelves and can adjust as required, can meet the inclined ladder assembling of different length and angle.
Description
Technical field
The utility model relates to a kind of inclined ladder without code assembly tooling.
Background technology
In the product of all kinds of ascend operation, be usually provided with inclined ladder aisle so that personnel are upper and lower.In prior art, the production method of inclined ladder is comparatively simple and easy, normally locates inclined ladder angle and spacing of marking time in the mode of manually ruling, and occur inclined ladder angle unavoidably and the error of spacing of marking time, directly affect the quality of product, its efficiency is also low.
Therefore, a kind of new scheme is needed to solve the problems referred to above.
Utility model content
The technical problems to be solved in the utility model is to provide a kind of inclined ladder without code assembly tooling, the inclined ladder angle of marking time and open shelves and can adjust as required, can meet the inclined ladder assembling of different length and angle.
For solving the problems of the technologies described above, the utility model provides a kind of inclined ladder without code assembly tooling, comprising:
Telescoping mechanism, described telescoping mechanism comprises multiple flexible slide rail parallel to each other, and described flexible slide rail is used for supporting baffle, and the distance between described multiple flexible slide rail is adjustable;
Switching mechanism, for regulating the anglec of rotation of the baffle plate on described flexible slide rail;
Frame, described frame has the groove stretched out for described baffle plate.
According to an embodiment of the present utility model, described telescoping mechanism also comprises the scissor expansion bracket driven by telescoping mechanism screw mandrel, described multiple flexible slide rail is fixed on described scissor expansion bracket, the described scissor expansion bracket that rotarily drives of described telescoping mechanism screw mandrel stretches, thus regulates the distance between described multiple flexible slide rail.
According to an embodiment of the present utility model, described telescoping mechanism also comprises: scaling operation handle, is connected with described telescoping mechanism screw mandrel, rotates for driving described telescoping mechanism screw mandrel.
According to an embodiment of the present utility model, described switching mechanism comprises:
Rollover stand;
Slippage guide rail, is fixed in described frame, and the outside of described slippage guide rail has connecting axle, and the inner side of described slippage guide rail has slippage slot;
Switching mechanism screw mandrel, is fixed on described rollover stand;
Lifting linking member, its first end is coupled with described switching mechanism screw mandrel by switching mechanism screw pair, and the connecting axle outside its second end and described slippage guide rail is formed pivotally connected;
Swivel link support, supported by described flexible slide rail, described baffle plate is fixed on described swivel link support;
Swivel link, described swivel link is crank structure, there is the first axle and the second axle that are connected by connecting rod, described first axle is fixed on the first end of described connecting rod and vertical with described connecting rod, described second axle is fixed on the second end of described connecting rod and vertical with described connecting rod, can move in described slippage slot in the slippage slot that described first shaft extension enters described slippage guide rail, described second axle through described swivel link support central shaft and fix with described swivel link support;
Wherein, the rotation of described switching mechanism screw mandrel is ordered about described switching mechanism screw pair and is moved, the movement of described switching mechanism screw pair makes slippage guide rail described in described lifting linking member pushing tow rise or declines, the rising of described slippage guide rail or decline are ordered about described swivel link around the central shaft of described swivel link support and are rotated, thus adjust the anglec of rotation of described baffle plate.
According to an embodiment of the present utility model, the bearing of trend of described slippage guide rail is parallel with the bearing of trend of the groove in described frame.
According to an embodiment of the present utility model, described switching mechanism also comprises: turning operation handle, is connected with described switching mechanism screw mandrel, rotates for driving described switching mechanism screw mandrel.
According to an embodiment of the present utility model, described inclined ladder also comprises the first terraced beam locating rack without code assembly tooling, and described first terraced beam locating rack comprises:
First fixed part, is fixed on described slippage guide rail;
First pars contractilis, can stretch relative to described first fixed part;
Clamping baffle plate, be fixed on the end of described first pars contractilis, described first pars contractilis stretches out, and the outer wall of described clamping baffle plate and inclined ladder ladder beam is offseted, and the terraced beam of described inclined ladder is positioned at the inclined ladder be arranged on described baffle plate and marks time both sides.
According to an embodiment of the present utility model, described inclined ladder also comprises second without code assembly tooling and makes allowances for locating rack, and described second terraced beam locating rack comprises:
Second fixed part, is fixed in described frame;
Second pars contractilis, can stretch relative to described second fixed part;
Top flap, is fixed on the end of described second pars contractilis, and described second pars contractilis stretches out, and the top of described top flap and described inclined ladder ladder beam is offseted.
Compared with prior art, the utility model has the following advantages:
The inclined ladder of the utility model embodiment, without in code assembly tooling, adopts switching mechanism to carry out the anglec of rotation of controllable register, can meet the assembling of marking time of different angles, can realize rapid-aligning; Adopt telescoping mechanism to carry out the spacing of controllable register, to meet the assembling of marking time of different spacing, can rapid-aligning be realized.Adopt scheme of the present utility model, the angle that can mark time to inclined ladder as requested and open shelves and regulate, thus meet the inclined ladder assembling of different length and angle.
Accompanying drawing explanation
Fig. 1 is according to the inclined ladder of the utility model embodiment overall structure schematic diagram without code assembly tooling;
Fig. 2 is according to the inclined ladder of the utility model embodiment switching mechanism schematic diagram in one of the states without code assembly tooling;
Fig. 3 is according to the inclined ladder of the utility model embodiment switching mechanism schematic diagram in another state without code assembly tooling;
Fig. 4 is the partial enlarged drawing in A portion in Fig. 3;
Fig. 5 is according to the inclined ladder of the utility model embodiment telescoping mechanism schematic diagram without code assembly tooling;
Fig. 6 is the first terraced beam locating rack of inclined ladder without code assembly tooling according to the utility model embodiment and the schematic diagram of the second terraced beam locating rack;
Fig. 7 to Fig. 9 shows according to the inclined ladder of the utility model embodiment structural representation without each step of code assembly tooling in assembling process.
Detailed description of the invention
Below in conjunction with specific embodiments and the drawings, the utility model is described in further detail, but should not limit protection domain of the present utility model with this.
With reference to figure 1, the inclined ladder of the present embodiment mainly comprises without code assembly tooling: frame 1, first body ladder beam locating rack 2, telescoping mechanism 3, the terraced beam locating rack 5 of switching mechanism 4, second.
Wherein, telescoping mechanism 3 comprises multiple flexible slide rail parallel to each other, and described flexible slide rail is used for supporting baffle, and the distance between adjacent expansion slide rail is adjustable.By telescoping mechanism 3, can the spacing of controllable register, and inclined ladder is marked time and is arranged on baffle plate, thus can realize inclined ladder and to mark time out the adjustment of shelves.
Switching mechanism 4 is for the anglec of rotation of controllable register.By switching mechanism 4, can the angle of controllable register, inclined ladder is marked time and is arranged on baffle plate, thus can realize inclined ladder and to mark time the adjustment of angle.
Frame 1 has groove, and such as, can have two parallel grooves, baffle plate stretches out from the groove frame 1.
Referring to figs. 2 to Fig. 4, switching mechanism can comprise: rollover stand 41, slippage guide rail 42, switching mechanism screw mandrel 43, lifting linking member 44, swivel link support 45 and swivel link 46.
Wherein, slippage guide rail 42 is fixed in frame, and the outside of slippage guide rail 42 has connecting axle, and the inner side of slippage guide rail 42 has slippage slot.Switching mechanism screw mandrel 43 is fixed on rollover stand 41, and one end of switching mechanism screw mandrel 43 can be fixed with turning operation handle 47, rotates in order to drive switching mechanism screw mandrel 43.The first end of lifting linking member 44 is coupled on switching mechanism screw mandrel 43 by switching mechanism screw pair 441, second end of lifting linking member 44 becomes pivotally connected with the connecting axle outside slippage guide rail 42, also namely, the second end of lifting linking member 44 can rotate by the connecting axle outside slippage guide rail 42.Swivel link support 45 is supported by the flexible slide rail in telescoping mechanism, and baffle plate 6 is fixed on swivel link support 45.Swivel link 46 is crank structure, there is the first axle 462 and the second axle 463 be connected by connecting rod 461, first axle 462 is fixed on the first end of connecting rod 461 and vertical with connecting rod 461, second axle 463 is fixed on the second end of connecting rod 461 and vertical with connecting rod 461, first axle 462 stretches in the slippage slot inside slippage guide rail 42 and also can move in slippage slot, and the second axle 463 passes the central shaft of swivel link support 46 and fixes with swivel link support 46.
The rotation of switching mechanism screw mandrel 43 is ordered about switching mechanism screw pair 441 and is moved, the movement of switching mechanism screw pair 441 makes lifting linking member 44 thrusting slip guide rail 42 rise or decline, the rising of slippage guide rail 42 or decline are ordered about swivel link 46 around the central shaft of swivel link support 46 and are rotated, thus drive baffle plate 6 to rotate, and then the anglec of rotation of regulating fender 6.Such as, by operation turning operation handle 47, switching mechanism screw mandrel 43 is turned clockwise; The rotation of switching mechanism screw mandrel 43 is ordered about switching mechanism screw pair 441 and is moved to the left; Switching mechanism screw pair 441 is moved to the left and makes lifting linking member 44 upwards thrusting slip guide rail 42, makes slippage guide rail 42 up; Slippage guide rail 42 up is ordered about swivel link 46 around the central shaft of swivel link support 45 and is rotated, thus reaches the object of the angle of regulating fender 6.
In the rotary course using switching mechanism controllable register 6, the anglec of rotation of viewing hood 6 can be carried out by angle dial 48 and pointer 49.
With reference to figure 5, telescoping mechanism can comprise: multiple flexible slide rail 33 parallel to each other; Scissor expansion bracket 32, telescoping mechanism screw mandrel 31, scaling operation handle 34 and dial 35.
Wherein, scissor expansion bracket 32 drives flexible by telescoping mechanism screw mandrel 31, and flexible slide rail 33 is fixed on scissor expansion bracket 32, and scaling operation handle 34 is connected with telescoping mechanism screw mandrel 31.By rotating scaling operation handle 34, telescoping mechanism screw mandrel 31 is driven to rotate, and the scissor expansion bracket 32 that rotarily drives of telescoping mechanism screw mandrel 31 stretches, thus regulates the distance between multiple flexible slide rail 33.Baffle plate is fixed on flexible slide rail, therefore, and can the spacing of controllable register by rotary extension operating grip 34.In adjustment process, dial 35 can be observed, adjust to required spacing.
With reference to figure 6, the first terraced beam locating rack comprises: the first fixed part 22, is fixed on slippage guide rail 42; First pars contractilis 23, can stretch relative to the first fixed part 22; Clamping baffle plate 21, be fixed on the end of the first pars contractilis 23, the first pars contractilis 23 stretches out, and makes to clamp baffle plate 21 and offsets with the outer wall of inclined ladder ladder beam, and inclined ladder ladder beam is positioned at the inclined ladder be arranged on baffle plate and marks time both sides.
Second terraced beam locating rack comprises: the second fixed part 52, is fixed in frame 1; Second pars contractilis 53, can stretch relative to the second fixed part 52; Top flap 51, is fixed on the end of the second pars contractilis 53, and the second pars contractilis 53 stretches out, and top flap 51 is offseted with the top of inclined ladder ladder beam.In use, the flexible of the second pars contractilis 53 can be regulated by clamping handwheel 54.
Below with reference to Fig. 7 to Fig. 9, the inclined ladder of the present embodiment is simply introduced without code assembly tooling use procedure.
With reference to figure 7, by rotary extension operating grip, make the spacing of baffle plate 6 consistent with the distance of requirement; By rotary turning operating grip, make baffle plate 6 relative to the angle [alpha] of frame and the angle of requirement consistent.
With reference to figure 8, being marked time by inclined ladder 7 is placed on the baffle plate 6 adjusted.
With reference to figure 9, adjust the second locating rack, the distance W that marks time of top to the first piece inclined ladder of inclined ladder ladder beam 7 is met the demands, then inclined ladder ladder beam 7 is in place, adjust the first locating rack and make clamping baffle plate inclined ladder ladder beam is pressed on inclined ladder to mark time both sides.Finally can spot welding assembling reinforce.
To sum up, the inclined ladder of the present embodiment mainly has the following advantages without code assembly tooling:
1, this inclined ladder mainly comprises frame, elevating mechanism, telescoping mechanism, locating rack etc. without code assembly tooling, can adjust according to drawing requirement angle that inclined ladder marks time and open shelves, meet the inclined ladder assembling of different length and angle;
2, switching mechanism utilizes the angle of linkage regulating fender, meets the assembling of marking time of different angles, can realize rapid-aligning;
3, telescoping mechanism utilizes the spacing of scissor flexible principle regulating fender, meets the assembling of marking time of different spacing, realizes rapid-aligning.
4, the first and second locating racks can adjust according to the length of inclined ladder and width, can install inclined ladder ladder beam quick position.
Although the utility model with preferred embodiment openly as above; but it is not for limiting the utility model; any those skilled in the art are not departing from spirit and scope of the present utility model; can make possible variation and amendment, the scope that therefore protection domain of the present utility model should define with the utility model claim is as the criterion.
Claims (8)
1. inclined ladder is without a code assembly tooling, it is characterized in that, comprising:
Telescoping mechanism, described telescoping mechanism comprises multiple flexible slide rail parallel to each other, and described flexible slide rail is used for supporting baffle, and the distance between described multiple flexible slide rail is adjustable;
Switching mechanism, for regulating the anglec of rotation of the baffle plate on described flexible slide rail;
Frame, described frame has the groove stretched out for described baffle plate.
2. inclined ladder according to claim 1 is without code assembly tooling, it is characterized in that, described telescoping mechanism also comprises the scissor expansion bracket driven by telescoping mechanism screw mandrel, described multiple flexible slide rail is fixed on described scissor expansion bracket, the described scissor expansion bracket that rotarily drives of described telescoping mechanism screw mandrel stretches, thus regulates the distance between described multiple flexible slide rail.
3. inclined ladder according to claim 2 is without code assembly tooling, it is characterized in that, described telescoping mechanism also comprises: scaling operation handle, is connected with described telescoping mechanism screw mandrel, rotates for driving described telescoping mechanism screw mandrel.
4. inclined ladder according to claim 1 is without code assembly tooling, it is characterized in that, described switching mechanism comprises:
Rollover stand;
Slippage guide rail, is fixed in described frame, and the outside of described slippage guide rail has connecting axle, and the inner side of described slippage guide rail has slippage slot;
Switching mechanism screw mandrel, is fixed on described rollover stand;
Lifting linking member, its first end is coupled with described switching mechanism screw mandrel by switching mechanism screw pair, and the connecting axle outside its second end and described slippage guide rail is formed pivotally connected;
Swivel link support, supported by described flexible slide rail, described baffle plate is fixed on described swivel link support;
Swivel link, described swivel link is crank structure, there is the first axle and the second axle that are connected by connecting rod, described first axle is fixed on the first end of described connecting rod and vertical with described connecting rod, described second axle is fixed on the second end of described connecting rod and vertical with described connecting rod, can move in described slippage slot in the slippage slot that described first shaft extension enters described slippage guide rail, described second axle through described swivel link support central shaft and fix with described swivel link support;
Wherein, the rotation of described switching mechanism screw mandrel is ordered about described switching mechanism screw pair and is moved, the movement of described switching mechanism screw pair makes slippage guide rail described in described lifting linking member pushing tow rise or declines, the rising of described slippage guide rail or decline are ordered about described swivel link around the central shaft of described swivel link support and are rotated, thus adjust the anglec of rotation of described baffle plate.
5. inclined ladder according to claim 4 is without code assembly tooling, it is characterized in that, the bearing of trend of described slippage guide rail is parallel with the bearing of trend of the groove in described frame.
6. inclined ladder according to claim 4 is without code assembly tooling, it is characterized in that, described switching mechanism also comprises: turning operation handle, is connected with described switching mechanism screw mandrel, rotates for driving described switching mechanism screw mandrel.
7. inclined ladder according to claim 4 is without code assembly tooling, it is characterized in that, also comprises the first terraced beam locating rack, and described first terraced beam locating rack comprises:
First fixed part, is fixed on described slippage guide rail;
First pars contractilis, can stretch relative to described first fixed part;
Clamping baffle plate, be fixed on the end of described first pars contractilis, described first pars contractilis stretches out, and the outer wall of described clamping baffle plate and inclined ladder ladder beam is offseted, and the terraced beam of described inclined ladder is positioned at the inclined ladder be arranged on described baffle plate and marks time both sides.
8. inclined ladder according to claim 7 is without code assembly tooling, it is characterized in that, also comprises the second terraced beam locating rack, and described second terraced beam locating rack comprises:
Second fixed part, is fixed in described frame;
Second pars contractilis, can stretch relative to described second fixed part;
Top flap, is fixed on the end of described second pars contractilis, and described second pars contractilis stretches out, and the top of described top flap and described inclined ladder ladder beam is offseted.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520103096.4U CN204430663U (en) | 2015-02-12 | 2015-02-12 | Inclined ladder is without code assembly tooling |
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Application Number | Priority Date | Filing Date | Title |
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CN201520103096.4U CN204430663U (en) | 2015-02-12 | 2015-02-12 | Inclined ladder is without code assembly tooling |
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CN204430663U true CN204430663U (en) | 2015-07-01 |
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CN201520103096.4U Withdrawn - After Issue CN204430663U (en) | 2015-02-12 | 2015-02-12 | Inclined ladder is without code assembly tooling |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104646900A (en) * | 2015-02-12 | 2015-05-27 | 上海振华重工(集团)股份有限公司 | Inclined ladder weight-free assembling tool |
-
2015
- 2015-02-12 CN CN201520103096.4U patent/CN204430663U/en not_active Withdrawn - After Issue
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104646900A (en) * | 2015-02-12 | 2015-05-27 | 上海振华重工(集团)股份有限公司 | Inclined ladder weight-free assembling tool |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20150701 Effective date of abandoning: 20160921 |
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C25 | Abandonment of patent right or utility model to avoid double patenting |