CN207753933U - A kind of sliding door linear electric motor controller structure - Google Patents

Abstract

A kind of the utility model sliding door linear electric motor controller structure, using the circuit board of multilayered structure, the setting of multilayer circuit board interval can be in interval location placement part electronic component.The controller architecture can save the installation space of sliding door linear motor, and high efficiency and heat radiation is replaced convenient for the repair of controller.

Description

A kind of sliding door linear electric motor controller structure

Technical field

The utility model is related to a kind of sliding door more particularly to a kind of sliding door linear electric motor controller structures, belong to Manufacture technology of the decoration hardware fitting.

Background technology

Sliding door is driven using linear motor, reduces the drive mechanisms such as belt, is occupied little space, is reduced friction and miscellaneous Sound, automated intelligent can largely promote use demand of the user to automatically-controlled door.Control device needs in real time according to sliding The physical quantitys such as shift position, speed, the acceleration of door calculate the electric current for being supplied to different coils in Linear motion actuator stator structure, So that sliding door can steadily, effectively and safely be moved for the driving force that linear motor generates.Then, control device needs to count More electronic component is measured to be achieved its function.

On the one hand, it is limited to install the proximate matter space of control device.This field can only use the strip that length increases Shape enhances the capacity of control device.Then, control device occupies largely during existing sliding door is driven with linear motor Volume.Such design, it will following trouble is brought, when by the linear motor door body relatively narrow for doorframe, due to control Device processed slides laterally the significant portion that linear motor installation space is occupied on direction in door body, leave for stator accommodation space compared with Small, stator is too short, and effectively connection can not be realized with stator by sliding the mover component in door body, influence entire linear motor Detection and driving.Also, control device is also filled in the structures such as proximate matter by the larger control device of volume for installation personnel, is installed, Repair is replaced and brings difficulty.

On the other hand, more electronic component produces amount of heat in control device, will if the heat can not be discharged in time The performance of entire control device is influenced, even burns out control device under serious conditions.

Invention content

The purpose of this utility model is to provide a kind of saving spaces, convenient for radiating and repairing the sliding door straight line of replacement Motor controller structure.

In order to solve the above technical problems, the technical scheme adopted by the utility model is that：A kind of sliding door linear motor control Device structure processed, including shell and the multilayered structure circuit board that is set in shell have certain intervals between adjacent layer circuit board.

In the technical solution, using the circuit board of multilayered structure, the setting of multilayer circuit board interval can be placed in interval location Part electronic component.To which the package be compact arrangement that circuit board is formed, the entire length of controller greatly shortens, and saves control The length that device processed occupies in installing proximate matter is installed and leaves sufficient space in proximate matter to stator and the placement of other components, enhances Sliding door is with linear motor control structure for different in width, the adaptability of different trips door body.Also, sliding door straight-line electric The component of machine generally operates in such a way that component is sequentially connected and fills in installation proximate matter, and the controller of small length is for installation personnel The installation replacement of controller is advantageous.

Further, adjacent layer circuit board to keep certain intervals between the two using spacer.Spacer designs, can It is effectively ensured to be spaced in multilayered structure circuit board and stablize, and each layer circuit board is consolidated.

Further, insulation sleeve is set at least one layer of circuit board, at least partly power component is arranged in insulation sleeve In.Since sliding door is more with linear motor control structure electronic component, space is limited, using under multilayered structure, designs insulation sleeve Power component is placed, the heat that power component distributes efficiently can be transmitted to outside by insulation sleeve heat, and heat dissipation effect is good.

Further, insulation is set on the outer side of multilayered structure circuit board.In the design of circuit board, due to The outer side of multilayered structure circuit board namely close to control structure shell plate face heat dissipation faster, the technical program is by insulation sleeve It is arranged in plate face here, the big power component of calorific value is mounted in the insulation sleeve in electronic component, can be timely and effective Ground distributes the heat of power component, greatly increases the radiating efficiency of controller.The technical program is according to circuit board Multilayered structure proposes efficient heat dissipation.

Further, insulation sleeve is in contact with shell.The direct heat conduction that insulation sleeve is in contact with shell, relative to insulation sleeve By the heat exchange efficiency higher of air layer and shell heat convection, radiating efficiency can be improved.

Further, the both ends of spacer have clamping part, and the card hole for clamping part grafting is opened up on circuit board.Using card The interval between circuit board is fixed and formed to spacer and circuit board by buckle structure, is dismountable, facilitates to circuit board Maintenance and inspection are replaced.

Further, spacer and card hole are multiple, and card hole is distributed on circuit boards.Multi-compartment part and card hole, make circuit Plate different zones all obtain spacer support, prevent the deformation of circuit board.

Further, spacer further includes spacer block, and clamping part projection is in the both ends of the surface of spacer block, and spacer block is in circuit The projected area of plate is more than the area of card hole.Spacer block ensure that the power that enough intervals are provided between adjacent layer circuit board, The firm of entire multilayered structure is effectively ensured.

Further, clamping part tool is there are two the elastic component of relative spacing setting, and laterally outward side is protruded for elastic component outer end Formed Slip Hook, Slip Hook have make the sliding surface that Slip Hook cross section becomes smaller along vertical outward direction.Elastic component and Slip Hook facilitate buckle Portion is caught in the buckle of circuit board, due to the elastic recovery capability of elastic component, is also allowed for spacer and is retracted out from circuit board.

Further, at least one layer of circuit board also has storage tank, so that the element on another circuit board passes through.In advance If storage tank, the element heights being arranged on circuit boards are larger, should be compared with when height has been more than the interval between adjacent circuit plate High element can ensure that large component is smoothly installed on multilayered structure by storage tank.

Description of the drawings

Fig. 1 is the utility model embodiment controller architecture stereogram；

Fig. 2 is the utility model embodiment controller architecture explosive view；

Fig. 3 is the utility model embodiment spacer stereogram；

Fig. 4 is the utility model embodiment spacer sectional view；

Fig. 5 is the utility model embodiment controller architecture assembled inside figure.

Wherein, reference numeral meaning is as follows：

Controller 10

First layer circuit board 1

Second layer circuit board 2

21 card hole 22 of storage tank

Element 11

Spacer 12

Clamping part 121,123 spacer blocks 122

1211 Slip Hook of elastic component, 1213 sliding surface 1212

Insulation sleeve 13

111 second connecting portion 112 of first connecting portion

Shell 113

Specific implementation mode

With reference to the accompanying drawings and examples, specific embodiment of the present utility model is described in further detail.Below Embodiment is not intended to limit the scope of the present invention for illustrating the utility model.

A kind of the utility model embodiment sliding door linear electric motor controller structure 10, including shell 113 and be set to Multilayered structure circuit board 1,2 in shell 113 has certain intervals between adjacent layer circuit board 1,2.

Using the circuit board 1,2 of multilayered structure, the setting of the interval of multilayer circuit board 1,2 can be in the interval location of circuit board 1,2 And other positions placing portion electronic component 11.To, the package be compact arrangement that circuit board is formed, the entire length of controller 10 Greatly shorten, save the length that controller 10 occupies in installing proximate matter, install left in proximate matter sufficient space to stator and Other components are placed, and enhance sliding door linear motor control structure for different in width, the adaptability of different trips door body. Also, the component of sliding door linear motor generally operates in such a way that component is sequentially connected and fills in installation proximate matter, small length Controller installation personnel is advantageous the installation of controller replacement.

It is understandable to enable the above objects, features, and advantages of the utility model to become apparent, below in conjunction with the accompanying drawings to this The specific embodiment of utility model is described in detail.

As shown in Figure 1, controller 10 has external shell 113 in the present embodiment, the inside that shell 113 is formed is for placing Various parts, the predominantly electronic component of multilayered structure circuit board and welding on circuit boards.

Preferably, in the present embodiment, the specific circuit board quantity of multilayered structure circuit board is two layers, as shown in Fig. 2, respectively For the first layer circuit board 1 and the second layer circuit board 2.First layer circuit board 1 is parallel with the second layer circuit board 2, protects between the two A certain distance is held.

It is notably that the quantity of multilayered structure circuit board also can be according to the programmable height of controller, using three layers Or three layers or more of circuit board quantity, per adjacent layer circuit board between there is a certain distance.Such technical solution and this reality It applies that example is similar, can realize the technique effect of the utility model.

Further, in order to make to keep certain intervals between the first layer circuit board 1 and the second layer circuit board 2, in first layer Spacer 12 is set between circuit board 1 and the second layer circuit board 2.Spacer 12 can effectively ensure that be spaced in multilayered structure circuit board Stablize, and each layer circuit board is consolidated.

Further, as shown in Fig. 2, Fig. 5, it is provided with insulation sleeve 13 on the first layer circuit board 1, is arranged in insulation sleeve 13 Power component (not shown), the heat-sinking capability for improving power component.Insulation sleeve 13 can be used existing insulating materials and be made, In the present embodiment, the insulation sleeve 13 for mostly manufacturing squarely, can also be used other shapes, is not limited herein.Due to sliding Door is more with linear motor control structure electronic component, and space is limited, and using under multilayered structure, design insulation sleeve places power member Part, the heat that power component distributes efficiently can be transmitted to outside by insulation sleeve heat, and heat dissipation effect is good.

Further, the type of insulation sleeve, electronic component is specifically located at the first layer circuit board 1 and second by the present embodiment The position of layer circuit board 2 is laid out, and is maximized in the hope of heat-sinking capability.Due to the outer side of multilayered structure circuit board namely Plate face close to control structure shell is adjacent with the external world, radiates herein faster, insulation sleeve 13 and the power component being placed therein It is arranged on the outer side of multilayered structure circuit board.Rather than power component can be opposite setting between two-tier circuit plate At position.

Specifically, the present embodiment is as shown in Figure 2, and outer side is the lower face and the 2nd layer of circuit of the first layer circuit board 1 The upper face of plate.Insulation sleeve 13 is preferably set to the lower face of the first layer circuit board 1 by the present embodiment.

For power component in kinds of electronic components, calorific value is big, is installed in the insulation sleeve 13, is placed in the outer part The heat of power component can be distributed timely and effectively, greatly increase the radiating efficiency of controller by face.This technology Scheme proposes efficient heat dissipation according to circuit board multilayered structure.

Further, insulation sleeve 13 is in contact with its neighbouring shell 113.The heat of insulation sleeve 13 directly passes through shell Body 113 passes.Compared to discontiguous situation, which passes through pair of air layer and shell 113 than insulation sleeve 13 For stream heat exchange, heat exchange efficiency is to improve, and heat dissipation effect is more preferable.

The spacer 12 of the present embodiment will be further described below.As shown in figure 3, the both ends of spacer 12 have buckle Portion 121,123.Correspondingly, card hole 22 is offered on the first layer circuit board 1 and the second layer circuit board, clamping part 121 is plugged on In the card hole 22 of double layer circuit plate 2, clamping part 123 is plugged in the card hole 22 of the first layer circuit board 1.

As shown in Fig. 2, spacer 12 and card hole 22 have it is multiple, card hole 22 be distributed in the first layer circuit board 1 and the second layer electricity On road plate 2.The design of multiple spacers 12 and card hole 22 makes the different zones of the first layer circuit board 1 and the second layer circuit board 2 all The support of spacer 12 is obtained, it can be to avoid the deformation of two-tier circuit plate 1,2.

Further, the centre of spacer 12 is spacer block 122.In the present embodiment, spacer block 122 is rectangular.At it In his embodiment, the other shapes such as spacer block 122 or cylindricality.Clamping part 121,123 distinguishes projection the two of spacer block 122 On end face, clamping part 121,123 is preferably an integral molding structure with spacer block 122.Projected area of the spacer block 122 in circuit board More than the area of the card hole 22 opened up on circuit board.Make in this way spacer block 122 be stuck in first circuit board 1 and second circuit board 2 it Between, it will not loosen.Spacer block 122 ensure that provides enough intervals between the first layer circuit board 1 and second circuit board 2 The firm of entire multilayered structure in the present embodiment is effectively ensured in power.

As shown in Figure 3, Figure 4, clamping part 121,123 all has two elastic components 1211, two 1211 phases of elastic component in left and right It is arranged at intervals on over the ground on the end face of spacer block 122.1211 outer end of elastic component laterally outward protrude to form Slip Hook 1213 by side.Slip Hook 1213 inner ends are the base portions of elastic component 1211, and the Slip Hook 1213 of upper end has the sliding surface 1212 tilted down outward, the cunning of lower end Hook 1213 has inclined outwardly upwardly sliding surface 1212.The generally mushroom of elastic component 1211.It is clamped by clamping part 121,123 When in card hole 22, sliding surface 1212 is abutted with the edge of card hole 22, and 22 edge of card hole generates to intermediate pressure sliding surface 1212, Two elastic components 1211 being oppositely arranged are drawn close to other side's compressing, due to having elasticity to make Slip Hook 1213 slide into respectively In card hole 22.After, since base portion radius is smaller, 1213 radius of Slip Hook and 122 cross-sectional area of spacer block of cap are big, electricity Road board is connected between Slip Hook 1213 and spacer block 122.Elastic component 1211 and Slip Hook 1213 facilitate clamping part 121 and are caught in circuit In the card hole 22 of plate, due to the elastic recovery capability of elastic component 1211, also allows for spacer 121 and retracted out from circuit board.

In the present embodiment, the concrete shape of 122 upper and lower ends of spacer block, elastic component 1211 can be different.Such as Fig. 4 institutes Show, the cross section of upper end elastic component 121 is rectangle, and the sliding surface 1212 of Slip Hook 1213 is formed as plane.The cross of lower end elastic component 121 Section is arc, and the sliding surface 1212 of Slip Hook 1213 is formed as curved surface.

Further, it is further opened with storage tank 21 on the second layer circuit board 2.Since the electronic components such as capacitance 11 are first After being welded on layer circuit board 1, height is higher, can exceed that the interval between two-tier circuit plate 1,2.Preset storage tank 21, Pass through for the electronic component 11 on the first layer circuit board 1, larger element is made smoothly to be placed in multilayered structure electricity On the plate of road, circuit board integrally still keeps compact multilayered structure.

In addition, 10 both ends of controller are additionally provided with connection terminal, it is connect with stator module (not shown) etc..In the embodiment In, first connecting portion 111 and second connecting portion 112 are specifically included, first connecting portion 111 is welded on the two of the first layer circuit board 1 End, interface and the other assemblies of formation are electrically connected, and second connecting portion 112 forms physical connection with other assemblies.Entire multilayer Board structure of circuit need not arrange conducting wire, and plate face is succinct, and integrated level is high.

The above is only the preferred embodiment of the utility model, it is noted that for the common skill of the art For art personnel, without deviating from the technical principle of the utility model, several improvement and replacement can also be made, these change The scope of protection of the utility model is also should be regarded as into replacement.

Claims (10)

1. a kind of sliding door linear electric motor controller structure, it is characterised in that：Including shell and it is set in the shell Multilayered structure circuit board has certain intervals between adjacent layer circuit board.

2. sliding door as described in claim 1 linear electric motor controller structure, it is characterised in that：The adjacent layer circuit board Using spacer so that keeping certain intervals between the two.

3. sliding door as claimed in claim 1 or 2 linear electric motor controller structure, it is characterised in that：Described at least one layer Insulation sleeve is set on circuit board, and at least partly power component is arranged in the insulation sleeve.

4. sliding door as claimed in claim 3 linear electric motor controller structure, it is characterised in that：The insulation is set on On the outer side of the multilayered structure circuit board.

5. sliding door as claimed in claim 4 linear electric motor controller structure, it is characterised in that：The insulation sleeve with it is described Shell is in contact.

6. sliding door as claimed in claim 2 linear electric motor controller structure, it is characterised in that：The both ends of the spacer With clamping part, the card hole for the clamping part grafting is opened up on circuit board.

7. sliding door as claimed in claim 6 linear electric motor controller structure, it is characterised in that：The spacer and card hole To be multiple, the card hole is distributed on the circuit board.

8. sliding door as claimed in claim 6 linear electric motor controller structure, it is characterised in that：The spacer further includes Spacer block, the clamping part projection is in the both ends of the surface of the spacer block, projected area of the spacer block in the circuit board More than the area of the card hole.

9. sliding door as claimed in claim 6 linear electric motor controller structure, it is characterised in that：The clamping part has two The elastic component of a relative spacing setting, laterally outward side protrudes to form Slip Hook for the elastic component outer end, and the Slip Hook has and makes institute State the sliding surface that Slip Hook cross section becomes smaller along vertical outward direction.

10. sliding door as claimed in claim 6 linear electric motor controller structure, it is characterised in that：At least one layer of electricity Road plate also has storage tank, so that the element on another circuit board passes through.