CN109188034A - A kind of measurement probe location adjusting device - Google Patents

Abstract

The invention discloses a kind of measurement probe location adjusting devices, comprising: copper bar component, probe adjustment module component, aluminum profile bracket, sliding rail component；The copper bar component is mounted on aluminum profile bracket by shaft, is able to carry out overturning；The probe adjustment module component is mounted on aluminum profile bracket by the sliding rail component.After the copper bar component is overturn at an angle by shaft, probe adjustment module component is slided on aluminum profile bracket by sliding rail component, to realize that distance is adjusted.The present invention will test the corresponding PCB control module integratedization module design of probe, the connection cables between shortening.Reduce connection cables, simplifies connection type, and realize probe in the long range adjustable range along battery modules length direction.Distance can be adjusted between single probe adjustment module component itself along battery modules width direction, and fine tuning tooling can carry out respective front and back fine tuning before and after the probe on both sides.

Description

A kind of measurement probe location adjusting device

Technical field

The invention belongs to apparatus for production line industry, battery industry, electric vehicle industry, the fields such as photovoltaic industry, energy storage industry, More particularly to a kind of measurement probe location adjusting device.

Background technique

The battery core performance detection in new energy battery modules, need with double probe crimp each battery core anode with it is negative Pole pole.In previous detection, the mounting means of probe is limited by the connection cables of its end, is only capable of inside small range It is finely adjusted distance.Once replace battery modules, it is necessary to probe along mould group length direction and along mould group width direction into Row distance adjustment.Since the cable length of probe end connection can generate error interference to the data that instrument and meter detects, so Probe end connection cables length is usually set as consistent by range estimation.In addition battery core quantity may be more than 20 in a mould group A, this results in the number of cables being connected on PCB control panel from probe tooling huge, and connection is complicated.

Summary of the invention

In order to solve the above problem, the invention proposes a kind of measurement probe location adjusting device, it is suitable for new energy electricity The mode and its expansion application that probe crimps on Chi Mo group pole.It solves to be directed to battery modules difference battery core size, it is same The problem that probe crimp connection fixture can not be effectively compatible with.The purpose of the present invention is what is be achieved through the following technical solutions.

Specifically, the present invention provides a kind of measurement probe location adjusting devices, comprising:

Copper bar component, probe adjustment module component, aluminum profile bracket, sliding rail component；

Wherein, the copper bar component is mounted on aluminum profile bracket by shaft, is able to carry out overturning；The probe is adjusted Modular assembly is mounted on aluminum profile bracket by the sliding rail component.

Preferably, after the copper bar component is overturn at an angle by shaft, probe adjustment module component passes through Sliding rail component is slided on aluminum profile bracket, to realize that distance is adjusted.

It preferably, can be to probe adjustment module group when the copper bar component is overturn by shaft to horizontality Part is pressed.

Preferably, the copper bar component is made of copper installation insulation board and several copper bars；The sliding rail component by Guide rail and its installation part composition；Probe adjustment module component carries out adjustable range sliding by sliding block on the guide rail, when it After being adjusted to required distance, probe is pressed by the copper bar component, is attached with the copper bar.

Preferably, the probe adjustment module component includes copper thimble, PCB modular cartridge and probe, wherein the copper Thimble is mounted on the pcb board inside PCB modular cartridge；The probe passes through fine tuning tooling, left and right fine tuning sliding block peace before and after probe It is attached to horizontally slip and finely tune on track structure plate；PCB modular cartridge is installed to the left and right by left and right two pieces aluminum sliding block pedestal On sliding fine tuning track structure plate.

Preferably, the aluminum sliding block pedestal side is furnished with fastening screw, for fixing probe adjustment module on guide rail Component.

Preferably, the sliding rail component has two groups, is installed on the aluminum profile bracket.

Preferably, the left and right fine tuning inner side of slider has guide groove, can finely tune the progress of track structure plate along horizontally slipping Sliding, to realize left and right adjusting range capability.

Preferably, when the left and right fine tuning sliding block, which is adjusted to, needs position, pass through two spiral shells on left and right fine tuning sliding block Clench solid, the position of the fixed probe.

Preferably, the probe is finely tuned in tooling before and after being mounted on probe, and fine tuning tooling and left and right are micro- before and after the probe Regulating sliding piece has shoulder design, can carry out sliding back and forth fine tuning on left and right fine tuning sliding block.

The present invention has the advantages that

1, the PCB control module integratedization module design that the detection probe of battery core each in battery modules is corresponding, Connection cables between shortening.

2, it is crimped from PCB control module to the connection line of instrument and meter using copper bar, for reducing connection cables, is simplified Connection type, and probe is realized in the long range adjustable range along battery modules length direction.

3, distance can be adjusted along battery modules width direction between single probe adjustment module component itself, and Fine tuning tooling can carry out respective front and back fine tuning before and after the probe on both sides.

Detailed description of the invention

By reading the following detailed description of the preferred embodiment, various other advantages and benefits are common for this field Technical staff will become clear.The drawings are only for the purpose of illustrating a preferred embodiment, and is not considered as to the present invention Limitation.And throughout the drawings, the same reference numbers will be used to refer to the same parts.In the accompanying drawings:

Fig. 1: probe connection figure after copper bar pressing；

Fig. 2: probe module roll adjustment figure after copper bar is opened；

Fig. 3: copper bar presses schematic diagram；

Fig. 4: probe adjustment module component drawings；

Fig. 5: sliding rail and aluminum profile bracket figure；

Fig. 6: sliding rail component enlarged drawing；

Fig. 7: probe or so finely tunes schematic diagram；

Fig. 8: schematic diagram is finely tuned before and after probe.

Appended drawing reference term is as follows:

(1) copper bar component

(2) probe adjustment module component

(3) aluminum profile bracket

(4) sliding rail component

(5) copper installation insulation board

(6) tooling is finely tuned before and after probe

(7) probe

(8) copper bar

(9) shaft

(10) sliding block

(11) copper thimble

(12) fastening screw

(13) guide rail

(14) left and right fine tuning sliding block

(15) it horizontally slips and finely tunes track structure plate

(16) aluminum design part

(17) PCB modular cartridge

(18) aluminum sliding block pedestal

Specific embodiment

The illustrative embodiments of the disclosure are more fully described below with reference to accompanying drawings.Although showing this public affairs in attached drawing The illustrative embodiments opened, it being understood, however, that may be realized in various forms the disclosure without the reality that should be illustrated here The mode of applying is limited.It is to be able to thoroughly understand the disclosure on the contrary, providing these embodiments, and can be by this public affairs The range opened is fully disclosed to those skilled in the art.

Too short with huge, the complicated problem of probe connection cables for probe adjustable range, the invention proposes one kind to connect Slidingtype line connection is touched, previous connection cables are replaced, to realize that probe is adjusted over long distances.

The principle of the present invention is: (7) probe, PCB control panel are designed to universal (2) probe adjustment module group Part, the test module can be slided on longer (13) guide rail, and (11) copper above (2) probe adjustment module component Thimble is attached with (8) copper bar, to replace the function of connection cables.When being detected to mould group, by PCB control panel Relay folding, realize from instrument and meter → (8) copper bar → (11) copper thimble → PCB control panel → (7) probe route Conducting.Thus it can realize that (7) probe carries out adjusting positioning over long distances in the range of can slide on (13) guide rail.

As shown in Figure 1, (1) copper bar component is mounted on (3) aluminum profile bracket by (9) shaft, it is able to carry out overturning. (2) probe adjustment module component is mounted on (3) aluminum profile bracket by (4) sliding rail component.

As shown in Fig. 2, (1) copper bar component is overturn by (9) shaft, at an angle after, (2) probe adjustment module Component is slided on (3) aluminum profile bracket by (4) sliding rail component, to realize adjustable range purpose.

As shown in figure 3, (1) copper bar component is overturn by (9) shaft, and when its overturning to horizontality, Neng Gouqi To the effect pressed to (2) probe adjustment module component.Wherein, (1) copper bar component is by (5) copper installation insulation board sum number Item (8) copper bar composition；(4) sliding rail component is made of (13) guide rail and its installation part.(2) probe adjustment module component passes through (10) sliding block carries out adjustable range sliding on (13) guide rail, and after it is adjusted to required distance, (7) probe is by (1) copper bar Component pressing, is attached with (5) copper bar.

As shown in figure 4, probe adjustment module component core is visited by (11) copper thimble, (17) PCB modular cartridge and (7) Needle passes through attached components connection composition.(11) copper thimble is mounted on the pcb board inside (17) PCB modular cartridge；(7) it visits Needle, which by fine tuning tooling, (14) left and right fine tuning sliding block before and after (6) probe is installed to (15) and horizontally slips, finely tunes on track structure plate； (17) PCB modular cartridge, which by left and right two pieces (18) aluminum sliding block pedestal is installed to (15) and horizontally slips, finely tunes on track structure plate. Wherein (18) aluminum sliding block pedestal side is furnished with (12) fastening screw, for fixing probe adjustment module component on guide rail.

As shown in figure 5, two groups of (4) sliding rail components are mounted on (3) aluminum profile bracket.

As shown in fig. 6, (13) guide rail is mounted on (4) sliding rail component by its accessory mount.

As shown in fig. 7, (7) probe is finely tuned in tooling before and after being mounted on (6) probe, pass through (14) left and right fine tuning sliding block installation It horizontally slips and is finely tuned on track structure plate to (15).(14) fine tuning inner side of slider in left and right has guide groove, can slide along (15) left and right Dynamic fine tuning track structure plate is slided, to realize left and right adjusting range capability.When it, which is adjusted to, needs position, pass through (14) Two screws fastening on left and right fine tuning sliding block, the position of fixed (7) probe.

As shown in figure 8, (7) probe is mounted on before and after (6) probe in fine tuning tooling, before and after (6) probe fine tuning tooling with (14) fine tuning sliding block in left and right has shoulder design, can carry out sliding back and forth fine tuning on (14) left and right fine tuning sliding block, be used in combination Screw fastening, the position of fixed (7) probe.

Working principle of the present invention is as follows:

It is normally carried out pattern as shown in Figure 1 when the detection of mould group.(2) probe adjustment module component is by being mounted on (3) aluminium profiles (4) sliding rail component on material bracket adjusts to the detection suitable position of mould group battery core pole, then (1) copper bar component is pressed In place, conducting circuit is formed to be tested.

When replacing variety classes mould group, need that (1) copper bar component opening is moved (2) probe and adjusted such as Fig. 2 pattern Modular assembly is to the suitable position of mould group battery core pole.Pass through the straight line of (13) track combination of (10) sliding block and Fig. 6 in Fig. 4 Motion module makes (2) probe adjustment module component carry out the roll adjustment along battery modules length direction.

When probe module sliding snaps to each battery core pole section, by tightening (12) fastening screw in Fig. 4 It is fixed on (4) sliding rail component of Fig. 5.

As shown in Figure 3 in place by the pressing of (1) copper bar component, make (11) copper thimble and the abundant chain of (8) copper bar in Fig. 4 It connects.

(15) shown in Fig. 7, which horizontally slip, finely tunes track structure plate and passes through the connection with (16) aluminum design part and (10) sliding block It forms translatable horizontally slipping and finely tunes track.Fine tuning tooling before and after (6) probe and (7) probe are slided by the fine tuning of (14) left and right Block horizontally slips to finely tune and carries out adjusting along the distance of battery modules width direction on track structure plate in (15), and fixed.

If pole nearby has cable, welding impurity etc. to influence the interferences that probe is crimped with pole in battery modules, can be such as Fine tuning tooling before and after (6) probe and (7) probe are finely tuned in the front-back direction on (14) left and right fine tuning sliding block shown in Fig. 8, And it is fixed.

The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto, In the technical scope disclosed by the present invention, any changes or substitutions that can be easily thought of by anyone skilled in the art, It should be covered by the protection scope of the present invention.Therefore, protection scope of the present invention should be with the protection model of the claim Subject to enclosing.

Claims (10)

1. a kind of measurement probe location adjusting device characterized by comprising

Copper bar component, probe adjustment module component, aluminum profile bracket, sliding rail component；

Wherein, the copper bar component is mounted on aluminum profile bracket by shaft, is able to carry out overturning；The probe adjustment module Component is mounted on aluminum profile bracket by the sliding rail component.

2. a kind of measurement probe location adjusting device according to claim 1, which is characterized in that

After the copper bar component is overturn at an angle by shaft, probe adjustment module component passes through sliding rail component It is slided on aluminum profile bracket, to realize that distance is adjusted.

3. a kind of measurement probe location adjusting device according to claim 2, which is characterized in that

When the copper bar component is overturn by shaft to horizontality, probe adjustment module component can be pressed.

4. a kind of measurement probe location adjusting device according to claim 2 or 3, which is characterized in that

The copper bar component is made of copper installation insulation board and several copper bars；The sliding rail component is by guide rail and its installation Part composition；Probe adjustment module component carries out adjustable range sliding by sliding block on the guide rail, when its be adjusted to it is required away from From rear, probe is pressed by the copper bar component, is attached with the copper bar.

5. a kind of measurement probe location adjusting device according to claim 4, which is characterized in that

The probe adjustment module component includes copper thimble, PCB modular cartridge and probe, wherein the copper thimble is mounted on On pcb board inside PCB modular cartridge；The probe is installed to left and right and is slided by fine tuning tooling, left and right fine tuning sliding block before and after probe On dynamic fine tuning track structure plate；PCB modular cartridge is installed to described horizontally slip by left and right two pieces aluminum sliding block pedestal and finely tunes rail On road structural slab.

6. a kind of measurement probe location adjusting device according to claim 5, which is characterized in that

The aluminum sliding block pedestal side is furnished with fastening screw, for fixing probe adjustment module component on guide rail.

7. a kind of measurement probe location adjusting device according to claim 1, which is characterized in that

The sliding rail component has two groups, is installed on the aluminum profile bracket.

8. a kind of measurement probe location adjusting device according to claim 5, which is characterized in that

The left and right fine tuning inner side of slider has guide groove, can finely tune track structure plate along horizontally slipping and is slided, to realize Left and right adjusting range capability.

9. a kind of measurement probe location adjusting device according to claim 8, which is characterized in that

When the left and right fine tuning sliding block, which is adjusted to, needs position, fastened by two screws on left and right fine tuning sliding block, it is fixed The position of the probe.

10. a kind of measurement probe location adjusting device according to claim 5, which is characterized in that

The probe is finely tuned in tooling before and after being mounted on probe, and sliding block is finely tuned in fine tuning tooling and left and right before and after the probe shoulder Design can carry out sliding back and forth fine tuning on left and right fine tuning sliding block.