CN207014292U - A kind of interior Hexagonal jacket for sensor dismounting - Google Patents

Abstract

The utility model discloses a kind of interior Hexagonal jacket for sensor dismounting, including the main body being integrally in the form of a column, one end of the main body is the connection end for connecting pneumatic impact spanner, and the other end is the sleeve part with the hexagonal endoporus to match with the bolt on sensor to be installed；Characterized in that, the depth of the hexagonal endoporus of the sleeve part is more than the bolt length on sensor to be installed, when the sleeve part is enclosed on the bolt of sensor to be installed, wire receiving space is formed between the bottom of the bolt and hexagonal endoporus；It is consistent with the depth of the hexagonal endoporus of the sleeve part with the first crossed beam trunking radially penetrated, the depth of first crossed beam trunking on the end face of the sleeve part；The hanger of the connector for fixed placement sensor is also equipped with the middle part of the main body.The utility model, which has, can be used in disassembling sensor, and efficiency of assembling is higher, and torsion uniformity is preferable, the advantages that being advantageous to improve assembling quality.

Description

A kind of interior Hexagonal jacket for sensor dismounting

Technical field

Assembly tool technical field is the utility model is related to, in particular to a kind of interior hexagonal set for sensor dismounting Cylinder.

Background technology

During Automatic manual transmission, the connection between most of parts is completed by bolt, conventional to tighten bolt Instrument has pneumatic Hexagonal jacket, double offset ring spanner and fork spanner etc., in order to improve the efficiency of assembling, is often used on production line pneumatic Hexagonal jacket is assembled.

Sensor is the sensing element largely used on automobile, and generally use screw thread is directly installed on automobile.Sensor Tail end connector is connected with by wire, and the size of connector is more than the diameter of sensor, therefore, can not both use pneumatic Hexagonal jacket is assembled, and can not also be assembled, can only be assembled with fork spanner using double offset ring spanner, due to fork spanner only Two faces of sensor can be exerted a force, be easily damaged the outer-hexagonal bolt of sensor, influence secondary dismounting；In addition, the effect of assembling Than relatively low, torsion can not also ensure rate, and the uniformity of assembling is poor.

Utility model content

For above-mentioned the deficiencies in the prior art, technical problem to be solved in the utility model is：How a kind of energy is provided Disassembling sensor is enough in, efficiency of assembling is higher, and torsion uniformity is preferable, is advantageous to improve tearing open for sensor for assembling quality The interior Hexagonal jacket unloaded.

In order to solve the above-mentioned technical problem, the utility model employs following technical scheme：

A kind of interior Hexagonal jacket for sensor dismounting, including the main body being integrally in the form of a column, one end of the main body be For connecting the connection end of pneumatic impact spanner, the other end is with the hexagonal endoporus to match with the bolt on sensor to be installed Sleeve part；Characterized in that, the depth of the hexagonal endoporus of the sleeve part is more than the bolt length on sensor to be installed, make institute Formed when stating sleeve part and being enclosed on the bolt of sensor to be installed, between the bottom of the bolt and hexagonal endoporus wire accommodate it is empty Between；There is the first crossed beam trunking radially penetrated, depth and the set of first crossed beam trunking on the end face of the sleeve part The depth of the hexagonal endoporus in cylinder portion is consistent；The extension of the connector for fixed placement sensor is also equipped with the middle part of the main body Frame.

Using said structure, due to having the first crossed beam trunking, and the depth of the first crossed beam trunking and six on the end face of sleeve part The depth of angle endoporus is consistent, and the depth of hexagonal endoporus is more than the bolt length on sensor to be installed.The sleeve is enclosed on biography When on the bolt on sensor, the wire of sensor can be bent in wire receiving space towards the first crossed beam trunking, and from first Crossed beam trunking passes, and is connected to the connector fixed placement of the wire other end on hanger.So, pacified using pneumatic impact spanner During dress, connector, wire and sensor together with sleeve rotating, will not cause the winding of wire.Due to sleeve part and bolt Six faces have contact so that being more uniformly stressed during installation, the bolt surface of sensor will not be damaged, be easy to secondary tear open Dress, be advantageous to improve the service life of sensor.Installed using pneumatic impact spanner, be advantageous to improve the efficiency of installation, be easy to Torque magnitude during control installation, the uniformity of assembling is preferable, is advantageous to improve assembling quality.

Further, on the body, the other end has to be passed through along the axial direction of the main body for one end installation of the hanger Logical setting mounts hole, and the size for mounting hole and the size of the connector of sensor to be installed match, and make connector Terminals can be inserted in described mount on hole along being fixed towards the direction of the sleeve part；The hanger away from the main body one Side has the second crossed beam trunking axially through setting along the main body, the bottom of second crossed beam trunking with described to mount hole complete Full insertion.

,, can be by sensor with patching when connector is taken out from hanger after sensor installation using said structure Wire between part passes through from the second crossed beam trunking.

Further, the hole that mounts is obliquely installed towards one end of the sleeve part along away from the main direction.

When being installed due to sensor, connector rotates together with main body, under the influence of centrifugal force, is likely to result in contact pin With the disengaging of wire, the normal use of follow-up sensor is influenceed.Using said structure so that the terminals edge of connector deviates from The direction of main body tilts, and so, the centrifugal force acted on contact pin is all the time towards wire direction, so as to avoid the damage of contact pin It is bad.

Further, the hanger is slideably set with the body, is had in the main body and is set along its length The chute put, there is on the hanger screwed hole that the face chute is set, coordinate on the screwed hole and trip bolt is installed.

Using said structure, because hanger is slideably set with the body so that hanger can be in trip bolt Act on, be fixed on the optional position of main body, so, for different sensors, can according to sensor and connector it Between conductor length, adjust the distance of hanger and sleeve part, make wire suitably exceptionally straight, wire whipping is excessive when avoiding assembling.

Further, the depth of the hexagonal endoporus of the sleeve part be sensor to be installed on bolt length 1.3~ 1.5 again.

In this manner it is ensured that the wire receiving space between the bottom of bolt and hexagonal endoporus can not oppress wire Under the premise of, meet the requirement of conductive line bends.

In summary, the utility model have can be used in disassembling sensor, efficiency of assembling is higher, torsion uniformity compared with It is good, the advantages that being advantageous to improve assembling quality.

Brief description of the drawings

Fig. 1 is the structural representation of the utility model embodiment.

Embodiment

With reference to embodiment, the utility model is described in further detail.

During specific implementation：As shown in figure 1, a kind of interior Hexagonal jacket for sensor dismounting, including be integrally in the form of a column Main body 1, one end of the main body 1 are the connection end 11 for connecting pneumatic impact spanner, the other end be with sensor to be installed On the sleeve part 12 of hexagonal endoporus that matches of bolt；The depth of the hexagonal endoporus of the sleeve part 12 is more than sensing to be installed Bolt length on device, when the sleeve part 12 is enclosed on the bolt of sensor to be installed, the bottom of the bolt and hexagonal endoporus Wire receiving space is formed between portion；There is the first crossed beam trunking for radially penetrating on the end face of the sleeve part 12, described the The depth of one crossed beam trunking is consistent with the depth of the hexagonal endoporus of the sleeve part 12；The middle part of the main body 1 is also equipped with being used for The hanger 2 of the connector of fixed placement sensor.

Using said structure, due to having the first crossed beam trunking, and the depth of the first crossed beam trunking and six on the end face of sleeve part The depth of angle endoporus is consistent, and the depth of hexagonal endoporus is more than the bolt length on sensor to be installed.The sleeve is enclosed on biography When on the bolt on sensor, the wire of sensor can be bent in wire receiving space towards the first crossed beam trunking, and from first Crossed beam trunking passes, and is connected to the connector fixed placement of the wire other end on hanger.So, pacified using pneumatic impact spanner During dress, connector, wire and sensor together with sleeve rotating, will not cause the winding of wire.Due to sleeve part and bolt Six faces have contact so that being more uniformly stressed during installation, the bolt surface of sensor will not be damaged, be easy to secondary tear open Dress, be advantageous to improve the service life of sensor.Installed using pneumatic impact spanner, be advantageous to improve the efficiency of installation, be easy to Torque magnitude during control installation, the uniformity of assembling is preferable, is advantageous to improve assembling quality.

During implementation, one end of the hanger 2 is arranged in the main body 1, and the other end has to be passed through along the axial direction of the main body 1 Logical setting mounts hole, and the size for mounting hole and the size of the connector of sensor to be installed match, and make connector Terminals can be inserted in described mount on hole along being fixed towards the direction of the sleeve part 12；The hanger 2 is away from the main body 1 Side there is the second crossed beam trunking axially through setting along the main body 1, the bottom of second crossed beam trunking and the extension Fill hole completely through.

,, can be by sensor with patching when connector is taken out from hanger after sensor installation using said structure Wire between part passes through from the second crossed beam trunking.

During implementation, the hole that mounts is obliquely installed towards one end of the sleeve part 12 along away from the direction of main body 1.Tool When body is implemented, inclination angle is 10 degree.

When being installed due to sensor, connector rotates together with main body, under the influence of centrifugal force, is likely to result in contact pin With the disengaging of wire, the normal use of follow-up sensor is influenceed.Using said structure so that the terminals edge of connector deviates from The direction of main body tilts, and so, the centrifugal force acted on contact pin is all the time towards wire direction, so as to avoid the damage of contact pin It is bad.

During implementation, the hanger 2 is slideably sleeved in the main body 1, is had in the main body 1 and is set along its length The chute put, there is on the hanger 2 screwed hole that the face chute is set, coordinate on the screwed hole and trip bolt is installed.

Using said structure, because hanger is slideably set with the body so that hanger can be in trip bolt Act on, be fixed on the optional position of main body, so, for different sensors, can according to sensor and connector it Between conductor length, adjust the distance of hanger and sleeve part, make wire suitably exceptionally straight, wire whipping is excessive when avoiding assembling.

During implementation, the depth of the hexagonal endoporus of the sleeve part 12 for the bolt length on sensor to be installed 1.3~ 1.5 again.

In this manner it is ensured that the wire receiving space between the bottom of bolt and hexagonal endoporus can not oppress wire Under the premise of, meet the requirement of conductive line bends.

Preferred embodiment of the present utility model is the foregoing is only, it is all at this not using the utility model as limitation All any modification, equivalent and improvement made within the spirit and principle of utility model etc., should be included in the utility model Protection domain within.

Claims (5)

1. a kind of interior Hexagonal jacket for sensor dismounting, including the main body being integrally in the form of a column（1）, the main body（1）One Hold as the connection end for connecting pneumatic impact spanner（11）, the other end is with six to match with the bolt on sensor to be installed The sleeve part of angle endoporus（12）；Characterized in that, the sleeve part（12）The depth of hexagonal endoporus be more than sensor to be installed On bolt length, make the sleeve part（12）When being enclosed on the bolt of sensor to be installed, the bottom of the bolt and hexagonal endoporus Wire receiving space is formed between portion；The sleeve part（12）End face on there is the first crossed beam trunking for radially penetrating, it is described The depth of first crossed beam trunking and the sleeve part（12）Hexagonal endoporus depth it is consistent；The main body（1）Middle part also install There is the hanger of the connector for fixed placement sensor（2）.

2. the interior Hexagonal jacket for sensor dismounting as claimed in claim 1, it is characterised in that the hanger（2）One End is arranged on the main body（1）On, the other end has along the main body（1）The hole that mounts axially through setting, it is described to mount The size in hole and the size of the connector of sensor to be installed match, and enable the terminals of connector along towards the sleeve Portion（12）Direction fix and be inserted in described mount on hole；The hanger（2）Away from the main body（1）Side have along the master Body（1）The second crossed beam trunking axially through setting, the bottom of second crossed beam trunking with it is described mount hole completely through.

3. the interior Hexagonal jacket for sensor dismounting as claimed in claim 2, it is characterised in that the hole that mounts is towards institute State sleeve part（12）One end along away from the main body（1）Direction is obliquely installed.

4. the interior Hexagonal jacket for sensor dismounting as claimed in claim 1, it is characterised in that the hanger（2）It can slide The main body is sleeved on dynamicly（1）On, the main body（1）It is upper that there is the chute set along its length, the hanger（2）Upper tool There is the screwed hole that the face chute is set, coordinate on the screwed hole and trip bolt is installed.

5. the interior Hexagonal jacket for sensor dismounting as claimed in claim 1, it is characterised in that the sleeve part（12）'s The depth of hexagonal endoporus is 1.3~1.5 times of the bolt length on sensor to be installed.