CN207594734U - Electronic accelerator pedal - Google Patents
Electronic accelerator pedal Download PDFInfo
- Publication number
- CN207594734U CN207594734U CN201721364065.XU CN201721364065U CN207594734U CN 207594734 U CN207594734 U CN 207594734U CN 201721364065 U CN201721364065 U CN 201721364065U CN 207594734 U CN207594734 U CN 207594734U
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- CN
- China
- Prior art keywords
- locked instrument
- pedestal
- locking part
- mounting hole
- accelerator pedal
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- Auxiliary Drives, Propulsion Controls, And Safety Devices (AREA)
Abstract
The utility model discloses a kind of electronic accelerator pedal, including:Pedal arm, pedestal, elastic component and locked instrument;Pedal arm is connected on pedestal, and elastic component is sleeved on the elastic component pedestal of locked instrument, and locked instrument is fixedly mounted in the locked instrument mounting hole of pedestal bottom plate;It is characterized in that:The side wall of the locked instrument mounting hole is equipped at least two avoiding structures, the side wall of the locked instrument is equipped with and the corresponding locking part of the avoiding structure, the locking part can pass through the avoiding structure, and the locked instrument can pass through or partially pass through the locked instrument mounting hole.The utility model is deformed without locked instrument or pedestal in assembling process, and can prevent locked instrument from moving in horizontal and vertical direction, is easily installed.The locked instrument and pedestal of the utility model have higher rigidity and intensity compared with prior art, and then can improve electronic accelerator pedal applicability and durability.
Description
Technical field
The utility model is related to automotive field, more particularly to a kind of electronic accelerator pedal.
Background technology
Electronic accelerator pedal is widely used in all kinds of automobiles, and existing electronic accelerator pedal common mechanical structure is mainly wrapped
It includes:Pedal arm, pedestal, spring and spring plug.During assembling, first pedal arm is assembled in pedestal and then by spring from pedestal
Bottom surface is assembled, and E-Gas is required for an accessory for holding spring from below after stepping on assembling spring, and this field is usually by this
Part is called spring plug.For existing spring plug with the relatively-stationary method of pedestal generally using the form of buckle, this just needs spring
Plug or pedestal can be deformed in assembling process and be caught in be buckled.Due to spring always can to spring plug one it is lasting under
Pressure, buckle structure easily generate the deformation of creep or cracking under the action of long lasting for power.If change when being caught in
Shape is undertaken by pedestal, and pedestal rigidity itself cannot design too big, and otherwise buckle can not be caught in, and limit entire electricity in this way
The rigidity and intensity of electronic throttle pedal thereby reduce the applicability and durability of electronic accelerator pedal.
Utility model content
The technical problem to be solved by the present invention is to provide a kind of higher rigidities and strong of using compared with prior art
Spend the electronic accelerator pedal of pedestal and locked instrument.
In order to solve the above technical problems, the utility model provides a kind of electronic accelerator pedal, including:Pedal arm, pedestal, bullet
Property part and locked instrument;Pedal arm is connected on pedestal, and elastic component is sleeved on the elastic component pedestal of locked instrument, locked instrument
It is fixedly mounted in the locked instrument mounting hole of pedestal bottom plate;The side wall of the locked instrument mounting hole is equipped at least two and avoids
Structure, the side wall of the locked instrument be equipped with the corresponding locking part of the avoiding structure, the locking part can pass through institute
Avoiding structure is stated, the locked instrument can pass through or partially pass through the locked instrument mounting hole.During installation, the locking part to
On across the locked instrument is rotated after the avoiding structure, the locking part is made to be detached from the avoiding structure.At this point, the lock
Gu portion is by the downward elastic force of the elastic component, since the locking part is detached from the avoiding structure, so the locking part meeting
Stopped by pedestal bottom plate, can not be detached from from locked instrument mounting hole.
It is further improved, the pedestal bottom plate by the locked instrument mounting hole is equipped with and the corresponding limit in the locking part
Position portion, the locking part can fall into the limiting section after being detached from the avoiding structure.After the locking part falls into the limiting section
Fixation is extruded by the downward elastic force of the elastic component in vertical direction, in the horizontal direction due to being stopped by the limiting section
Equally fixed.
It is further improved, the locking part is located at the first half of the locked instrument side wall.
Wherein, the elastic component is spring, and the locked instrument is coil component spring plug, and the locking part is side pin, described
Avoiding structure is to avoid groove.
It is further improved, pedestal bottom plate thickness is a, and locked instrument height is b, and locking part height is c, and limiting section depth is
D, then a-d >=b-c.Design can guarantee that the bottom surface of locked instrument will not be protruded except pedestal bottom plate in this way, preferably a=b, c
The top and bottom of=d, such pedestal bottom plate and locked instrument are respectively at same level, electronic accelerator pedal pedestal bottom plate
For plane.
Wherein, the limiting section is limiting groove.
It is further improved, the avoiding structure is evenly distributed on the side wall of locked instrument mounting hole, described to be uniformly distributed
It is equal to refer to that the adjacent avoiding structure of any two with locked instrument mounting hole center forms angle.
When the utility model is assembled, elastic component is sleeved on the elastic component pedestal of locked instrument, by locked instrument
The locking part of side wall and the avoiding structure alignment of locked instrument mounting hole side wall, make locked instrument be inserted into locked instrument mounting hole.
Locked instrument passes through (or partially passing through) locked instrument mounting hole, and locked instrument, which forms elastic component, to be compressed, and locking part passes through and keeps away
Allow rotary lock device after structure, locking part is detached from the avoiding structure in vertical direction, and locking part falls into locked instrument installation
In limiting section by hole on pedestal bottom plate.Since the elastic force of elastic component exists, locking part is by downward elastic force, in locking clan
The sound can be generated when entering limiting section or installation personnel experiences the elastic force that locked instrument is subject to and becomes smaller, such installation personnel just can
Learn that locked instrument is installed in place.
The utility model devises locked instrument, avoiding structure, locking part and limiting section, during installation without locked instrument or
Pedestal is deformed in assembling process, and can prevent locked instrument from moving in horizontal and vertical direction, is easily installed.Cause
This can be by the higher of the rigidity and Intensity Design of locked instrument and pedestal, and then improves electronic accelerator pedal applicability and durable
Property.
Description of the drawings
The utility model is described in further detail with specific embodiment below in conjunction with the accompanying drawings:
Fig. 1 is the decomposition texture schematic diagram one of the utility model embodiment.
Fig. 2 is the decomposition texture schematic diagram two of the utility model embodiment.
Fig. 3 is the decomposition texture schematic diagram three of the utility model embodiment.
Fig. 4 is the scheme of installation one of the utility model embodiment.
Fig. 5 is the scheme of installation two of the utility model embodiment.
Fig. 6 is the scheme of installation three of the utility model embodiment.
Fig. 7 is the scheme of installation four of the utility model embodiment.
Fig. 8 is one schematic diagram of locked instrument embodiment of the utility model embodiment.
Fig. 9 is two schematic diagram of locked instrument embodiment of the utility model embodiment.
Figure 10 is the locked instrument of the utility model embodiment and pedestal bottom plate size relationship figure, and locking dress is only shown in figure
It puts and is used to identify size relationship with pedestal bottom plate adjacent part.
Reference sign
1 is pedestal
2 be pedestal bottom plate
3 be pedal arm
4 be elastic component
5 be locked instrument
6 be locking part
7 be avoiding structure
8 be limiting section
9 be elastic component pedestal
10 be locked instrument mounting hole
Specific embodiment
As shown in Figure 1-Figure 3, one embodiment of the use of the new type, including pedestal 1, pedal arm 3, elastic component 4 and locked instrument
5;Pedal arm 3 is connected on pedestal 1, and elastic component 4 is sleeved on the elastic component pedestal 9 of locked instrument 5, and locked instrument 5 fixes peace
In the locked instrument mounting hole 10 of pedestal bottom plate 2;The side wall of the locked instrument mounting hole 10 is equipped at least two and avoids
Structure 7, the side wall of the locked instrument 5 be equipped with the 7 corresponding locking part 6 of avoiding structure, the locking part 6 can be worn
The avoiding structure 7 is crossed, the pedestal bottom plate 2 on 10 side of locked instrument mounting hole is equipped with corresponding with the locking part 6
Limiting section 8, the locked instrument 5 can pass through or partially pass through the locked instrument mounting hole 10.
Locked instrument 5 is passed through or partially passes through after the locked instrument mounting hole 10 through rotary lock device 5, the lock
Gu portion 6 can be detached from the avoiding structure 7 in the horizontal direction, then the locking part 6 can fall into the limiting section 8.The locking
Portion 6 is extruded by the downward elastic force of the elastic component 4 by fixed pedestal bottom plate after falling into the limiting section 8 in vertical direction
On, in the horizontal direction due to similarly being fixed by limiting section blocking.
In the present embodiment:The elastic component 4 is spring, and the locked instrument 5 is coil component spring plug, and the locking part 6 is
Two side pins for being symmetrically distributed in spring plug circumferential side wall, the avoiding structure 7 are two and are symmetrically distributed in locked instrument installation
Avoidance groove on 10 side pedestal bottom plate 2 of hole.
Locked instrument, which passes through and still partially passes through locked instrument mounting hole, to be determined by the height of locking part.With reference to figure 8
It is shown, if the height of locking part is identical with locked instrument height, i.e. when locked instrument height b is equal to locking part height c, then lock
Device needs to complete to install across locked instrument mounting hole.Refering to what is shown in Fig. 9, if the height of locking part is less than locked instrument
Highly, i.e. locked instrument height b be more than locking part height c when, then locked instrument partially pass through locked instrument mounting hole can be complete
Into installation.
The preferred embodiment of locked instrument, as shown in figure 9, the height of locking part is less than locked instrument height and locking part
Positioned at the first half of the locked instrument side wall.
If pedestal bottom plate thickness is a, locked instrument height is b, and locking part height is c, and limiting section depth is d, then a-d
≥b-c.Design can guarantee that the bottom surface of locked instrument will not be protruded except pedestal bottom plate in this way, preferably a=b, c=d, in this way
The top and bottom of pedestal bottom plate and locked instrument are respectively at same level, and electronic accelerator pedal pedestal bottom plate is plane.
Avoiding structure 7 is made to be evenly distributed on the side wall of locked instrument mounting hole 10 as far as possible during implementation, it is described uniformly to divide
It is equal that cloth refers to that the adjacent avoiding structure of any two with locked instrument mounting hole center forms angle.Setting makes locking in this way
Portion 6, which is received, to be evenly distributed to down spring on pedestal bottom plate 2, and locked instrument unbalance stress is avoided to shift.
As shown in Fig. 2 combinations Fig. 4, when the utility model is assembled, elastic component 4 is sleeved on to the elasticity of locked instrument 5
On part pedestal 9, the avoiding structure 7 of 10 side wall of the locking part 6 of 5 side wall of locked instrument and locked instrument mounting hole is aligned, makes lock
It is fixedly mounted with and puts 5 insertion locked instrument mounting holes 10.Locked instrument 5, which forms elastic component 4, to be compressed, and locking part 6 passes through avoiding structure 7
Rotary lock device 5 afterwards.As shown in figure 5, locking part 6 is detached from avoiding structure 7 in vertical direction.Be as shown in Figure 6 locking part not
Fall into the state rotated in limiting section in locked instrument mounting hole 10.It is to fall into limit after locking part 6 rotates 180 degree as shown in Figure 7
State in position portion 8.
Since the elastic force of elastic component 4 exists, locking part 6 is fallen into 8 moment of limiting section in locking part 6 by downward elastic force,
Elastic force, which is released, can generate the sound or installation personnel experiences the elastic force that locked instrument 5 is subject to and becomes smaller, and such installation personnel is with regard to energy
Enough learn that locked instrument is installed in place.
The utility model is described in detail above by specific embodiment and embodiment, but these are not structure
The limitation of pairs of the utility model.In the case where not departing from the utility model principle, those skilled in the art can also make
Many modification and improvement, these also should be regarded as the scope of protection of the utility model.
Claims (7)
1. a kind of electronic accelerator pedal, including:Pedal arm, pedestal, elastic component and locked instrument;Pedal arm is connected on pedestal,
Elastic component is sleeved on the elastic component pedestal of locked instrument, and locked instrument is fixedly mounted on the locked instrument mounting hole of pedestal bottom plate
In;It is characterized in that:
The side wall of the locked instrument mounting hole is equipped at least two avoiding structures, and the side wall of the locked instrument is equipped with and institute
The corresponding locking part of avoiding structure is stated, the locking part can pass through the avoiding structure, and the locked instrument can pass through or portion
Divide across the locked instrument mounting hole.
2. electronic accelerator pedal as described in claim 1, it is characterised in that:Pedestal bottom plate by the locked instrument mounting hole
The limiting can be fallen into the corresponding limiting section in the locking part, the locking part after being detached from the avoiding structure by being equipped with
Portion.
3. electronic accelerator pedal as described in claim 1, it is characterised in that:The locking part is located at the locked instrument side wall
The first half.
4. electronic accelerator pedal as described in claim 1, it is characterised in that:The elastic component is spring, the locked instrument
It is coil component spring plug, the locking part is side pin, and the avoiding structure is to avoid groove.
5. electronic accelerator pedal as claimed in claim 2, it is characterised in that:Pedestal bottom plate thickness is a, and locked instrument height is
B, locking part height are c, and limiting section depth is d, then a-d >=b-c.
6. electronic accelerator pedal as claimed in claim 2, it is characterised in that:The limiting section is limiting groove.
7. electronic accelerator pedal as claimed in any one of claims 1 to 6, it is characterised in that:The avoiding structure is uniformly distributed
On the side wall of locked instrument mounting hole, described be uniformly distributed refers to that the adjacent avoiding structure of any two is installed with locked instrument
It is equal that hole center forms angle.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721364065.XU CN207594734U (en) | 2017-10-23 | 2017-10-23 | Electronic accelerator pedal |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721364065.XU CN207594734U (en) | 2017-10-23 | 2017-10-23 | Electronic accelerator pedal |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207594734U true CN207594734U (en) | 2018-07-10 |
Family
ID=62756922
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201721364065.XU Active CN207594734U (en) | 2017-10-23 | 2017-10-23 | Electronic accelerator pedal |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207594734U (en) |
-
2017
- 2017-10-23 CN CN201721364065.XU patent/CN207594734U/en active Active
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