CN215514850U - Thick film chip resistor storage device - Google Patents

Abstract

The utility model relates to a thick film wafer resistor storage device, which comprises a plurality of holding pieces for placing thick film wafer resistors, a box body, a connecting piece, a plurality of mounting pieces and a driving assembly, wherein a holding cavity with an opening at one side is arranged in the box body, a partition plate is arranged in the holding cavity and divides the holding cavity into a holding part and a sliding part which are mutually communicated, the connecting piece is slidably arranged in the holding part, the end part of the connecting piece extends into the sliding part, the connecting piece can move towards or away from the holding cavity, the mounting piece is arranged in the holding part, the holding piece is arranged on the mounting piece, the driving assembly is slidably arranged in the sliding part and is in driving connection with the connecting piece, the device drives the connecting piece to move through the driving assembly, so that the holding piece can move to the outside of the holding cavity, the clamping by a user is convenient, the problem that the holding piece is fixed in the box body and the thick film wafer resistor at the bottom of the holding piece is difficult to be clamped by the user is solved, the production efficiency is improved, and the use by users is convenient.

Description

Thick film chip resistor storage device

Technical Field

The application relates to the technical field of resistor storage, in particular to a thick film chip resistor storage device.

Background

Because thick film wafer resistor's size is little, and the demand is big, and general thick film wafer is placed in specific storage device when using, and the user of being convenient for on the one hand presss from both sides and gets thick film wafer resistor, and on the other hand is convenient for thick film wafer resistor's storage.

The thick film wafer resistor storage device who has now generally sets up a plurality of holding pieces that are used for placing thick film wafer resistor in inside, nevertheless the holding piece passes through the joint mode and installs in the device, and the dismantlement of the holding piece of being not convenient for, when thick film wafer resistor quantity is not many, the user is difficult to press from both sides the thick film wafer resistor of holding piece bottom through holding piece opening, influences production efficiency.

SUMMERY OF THE UTILITY MODEL

Solves the technical problem

An object of the present application is to provide a thick film chip resistor storage device to solve the above problems in the prior art.

Technical scheme

In order to achieve the above purpose, the present application provides the following technical solutions:

the utility model provides a thick film wafer resistor storage device, including a plurality of holding pieces that are used for placing thick film wafer resistor, the box, the connecting piece, a plurality of installed parts and drive assembly, be equipped with one side open-ended and hold the chamber in the box, it is equipped with the baffle to hold the intracavity, the baffle will hold the chamber and divide into the portion of holding and the sliding part of putting through each other, connecting piece slidable installs in the portion of holding, and its tip stretches into in the sliding part, the connecting piece can be toward being close to or keeping away from and hold the chamber direction and remove, a plurality of installed parts slidable install in the portion of holding, a plurality of holding pieces are installed on the installed part, drive assembly slidable installs in the sliding part, and be connected with the connecting piece drive.

Preferably, drive assembly includes slider, elevator motor and dwang, and slider slidable installs in the sliding part, and elevator motor fixed mounting is in the slider, dwang one end and elevator motor output shaft fixed connection, the other end and connecting piece threaded connection.

Preferably, the sliding part comprises a connecting part and a driving part, the connecting part is in a U-shaped design, the end part of the connecting part extends into the connecting part and is in sliding connection with the connecting part, the lifting motor is fixedly installed in the driving part, and the rotating rod extends into the connecting part and is in threaded connection with the connecting part.

Preferably, the driving part extends out of the sliding part, and a switch electrically connected with the lifting motor is arranged on the sliding part.

Preferably, drive assembly and sliding part all are equipped with two, and the sliding part symmetry sets up in the portion both sides of holding, and two drive assembly correspond and install in two sliding part, and the connecting piece is located the portion of holding, and its both ends stretch into in the connecting portion with dwang threaded connection.

Preferably, the two driving parts are respectively provided with a switch, and when the two switches are pressed simultaneously, the two lifting motors are electrified to form a loop.

Preferably, the accommodating portion is further provided with a plurality of elastic protrusions, and the elastic protrusions can abut against the sliding member.

Preferably, the device still includes a plurality of baffling pieces, is equipped with the joint groove on the baffle, and it is protruding to be equipped with the joint on the baffling piece, and the baffling piece passes through the joint protruding and the cooperation of joint groove is installed in the holding portion.

Preferably, be equipped with the butt arch on the installed part, be equipped with on baffler and the box with the protruding complex butt groove of butt, the slider passes through the butt arch and installs on baffler with the cooperation of butt groove.

Preferably, be equipped with a plurality of spacing archs on the installed part, enclose each other between spacing arch and installed part or two spacing archs and close formation accommodation space, accommodation component is located accommodation space.

Advantageous effects

Compared with the prior art, the thick film wafer resistor storage device has the following use mode that the rotating cover is firstly opened to enable the containing part to be positioned in front of a user, then the containing part corresponding to the thick film wafer resistor with the required model is opened according to the requirement, when the number of the thick film wafer resistors with the required model is not large, the user can slide the driving assembly to correspond to one row of the containing parts to enable the connecting part to be positioned below the containing part, then the driving assembly is started to drive the connecting part to move towards the direction far away from the containing part, further the installing part and the containing part move towards the direction far away from the containing part, at the moment, the containing part is positioned outside the containing part to facilitate the user to clamp the thick film wafer resistor therein, after clamping is completed, the driving assembly drives the connecting part to move towards the direction close to the containing part, and the installing part falls into the containing part under the gravity action of the containing part and the thick film wafer resistor therein, generally speaking, the device orders about the connecting piece through drive assembly and removes to make and hold the piece and can move to holding the chamber outside, the user clamp of being convenient for gets, has solved among the prior art and has held the piece and fix in the box, and the user is difficult to press from both sides the problem of getting the thick film wafer resistor who holds a bottom, has improved production efficiency, and the user of being convenient for uses.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the principles of the application and not to limit the application, in which:

FIG. 1 shows a first schematic diagram of a use state of an embodiment of the present application;

FIG. 2 shows an enlarged view of section A of FIG. 1 of an embodiment of the present application;

FIG. 3 shows a cross-sectional view of a partial feature of an embodiment of the present application;

FIG. 4 shows a partial part exploded view one of an embodiment of the present application;

FIG. 5 shows a partial part exploded view two of an embodiment of the present application;

fig. 6 shows a schematic structural diagram of a case of an embodiment of the present application.

In the figure: the container comprises a 10 accommodating part, a 11 box body, a 12 partition plate, a 13 connecting part, a 14 mounting part, a 15 switch, a 20 accommodating cavity, a 21 accommodating part, a 22 sliding part, a 30 driving component, a 31 sliding part, a 32 lifting motor, a 33 rotating rod, a 34 connecting part, a 35 driving part, a 40 elastic protrusion, a 41 blocking part, a 42 clamping protrusion, a 43 abutting protrusion, a 50 clamping groove, a 51 abutting groove and a 52 limiting protrusion.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Referring to fig. 1-6, the present application discloses a thick film chip resistor storage device, including a plurality of receiving parts 10 for placing thick film chip resistor, a box 11, a connecting part 13, a plurality of mounting parts 14 and a driving component 30, a receiving cavity 20 with an opening on one side is provided in the box 11, a partition plate 12 is provided in the receiving cavity 20, the partition plate 12 divides the receiving cavity 20 into a receiving part 21 and a sliding part 22 which are mutually connected, the connecting part 13 is slidably installed in the receiving part 21, and the end part of the connecting part extends into the sliding part 22, the connecting part 13 can move towards the direction close to or far away from the receiving cavity 20, the plurality of mounting parts 14 are slidably installed in the receiving part 21, the plurality of receiving parts 10 are installed on the mounting part 14, and the driving component 30 is slidably installed in the sliding part 22 and is in driving connection with the connecting part 13.

It should be noted that, be equipped with the lid on the box 11, the lid rotates with box 11 to be connected, and can rotate to the lid closes and hold chamber 20, be equipped with the rotation lid on holding the piece 10, it is rotatable to rotate the lid and close and hold a 10 openings to the lid, the lid all belongs to prior art with rotating the lid, add unnecessary the repeated description here, under the normality, the lid closes and holds chamber 20 openings, it closes and holds a 10 openings to rotate the lid, still be equipped with the sponge in the lid, after the lid closes and holds chamber 20, the sponge can with hold a 10 and drive assembly 30 butt, when preventing that the user from removing, reduce the collision that holds a 10 and box 11, prevent holding a 10 and rotating the lid and break away from, thick film wafer resistor in it leaks and mixes.

Based on the above scheme, the thick film chip resistor storage device is used in a manner that the rotating cover is firstly opened to enable the accommodating part 10 to be located in front of a user, then the accommodating part 10 corresponding to the thick film chip resistor of the required model is opened according to the requirement, when the number of the thick film chip resistors of the required model is not large, the user can slide the driving component 30 to a row corresponding to the accommodating part 10 to enable the connecting component 13 to be located below the accommodating part 10, then the driving component 30 is started to drive the connecting component 13 to move towards the direction far away from the accommodating part 21, further the mounting component 14 and the accommodating component 10 move towards the direction far away from the accommodating part 21, at the moment, the accommodating part 10 is located outside the accommodating part 21 to facilitate the user to clamp the thick film chip resistor therein, after clamping is completed, the driving component 30 drives the thick film connecting component 13 to move towards the direction near the accommodating part 21, and the mounting component 14 falls into the accommodating part 21 under the action of the gravity of the accommodating part 10 and the internal thick film chip resistor, in general, the device drives the connecting piece 13 to move through the driving assembly 30, so that the accommodating piece 10 can move to the outside of the accommodating cavity 20, the clamping by a user is convenient, the problem that the accommodating piece 10 is fixed in the box body 11 and the user is difficult to clamp the thick film wafer resistor at the bottom of the accommodating piece 10 in the prior art is solved, the production efficiency is improved, and the use by the user is convenient.

Referring to fig. 3 and 4, the driving assembly 30 includes a sliding member 31, a lifting motor 32 and a rotating rod 33, the sliding member 31 is slidably mounted in the sliding portion 22, the lifting motor 32 is fixedly mounted in the sliding member 31, and one end of the rotating rod 33 is fixedly connected to an output shaft of the lifting motor 32 and the other end is in threaded connection with the connecting member 13.

Specifically, the end of the connecting member 13 is slidably connected to the sliding member 31, and the lifting motor 32 and the rotating rod 33 are both located in the sliding member 31, so that the lifting motor 32, the rotating rod 33 and the connecting member 13 can move along with the sliding member 31, and when the lifting motor 32 is started, the rotating rod 33 rotates to drive the connecting member 13 to move toward or away from the accommodating portion 21, so that the accommodating member 10 is driven to move toward or away from the accommodating portion 21.

Further, the sliding member 31 includes a connecting portion 34 and a driving portion 35, the connecting portion 34 is U-shaped, the end of the connecting member 13 extends into the connecting portion 34 and is slidably connected to the connecting portion 34, the lifting motor 32 is fixedly mounted in the driving portion 35, and the rotating rod 33 extends into the connecting portion 34 and is threadedly connected to the connecting member 13.

It is specific, connecting piece 13 tip size equals the size of connecting portion 34, so that connecting piece 13 stretches into in connecting portion 34 rather than the butt, drive division 35 stretches out sliding part 22 design, so that the user contact orders about connecting portion 34 and removes along sliding part 22 length direction, and then make connecting piece 13 can remove to arbitrary holding member 10 below, the practicality of the device is improved, be equipped with on sliding part 22 with elevator motor 32 electric connection's switch 15, the steerable elevator motor 32's of switch 15 direction of rotation, this mode belongs to prior art, it is here not adding unnecessary the repetition, can make elevator motor 32 start or close through press switch 15, and then control connecting piece 13 is toward being close to or keeping away from holding part 21 direction and removing.

Further, the number of the driving assemblies 30 and the number of the sliding portions 22 are two, the sliding portions 22 are symmetrically arranged on two sides of the accommodating portion 21, the two driving assemblies 30 are correspondingly arranged in the two sliding portions 22, the connecting member 13 is located in the accommodating portion 21, and two end portions of the connecting member extend into the connecting portion 34 to be in threaded connection with the rotating rod 33.

Through setting up two sets of drive assembly 30 for the removal that connecting piece 13 is close to or keeps away from accommodation portion 21 is more stable, and in addition, in this embodiment, all be equipped with switch 15 on two drive division 35, when two switches 15 pressed down simultaneously, two elevator motor 32 circular telegrams formed the return circuit, avoided the user to appear the mistake and touch.

Referring to fig. 1 and 5, the device further includes a plurality of blocking members 41, a clamping groove 50 is formed on the partition plate 12, a clamping protrusion 42 is formed on the blocking member 41, and the blocking member 41 is installed in the accommodating portion 21 through the clamping protrusion 42 and the clamping groove 50 in a matching manner.

Specifically, protruding 42 of joint is located separation piece 41 both ends, and when protruding 42 of joint and the cooperation of joint groove 50, protruding 42 of joint and the 12 face parallel and level of baffle avoid joint protruding 42 to stretch out holding portion 21 and influence the user and press from both sides and get thick film wafer resistor, through setting up a plurality of separation pieces 41 for a plurality of holding pieces 10 can separate, avoid a plurality of holding between 10 mutual contact friction production static, influence the storage of thick film wafer resistor.

Referring to fig. 2, the accommodating portion 21 is further provided with a plurality of elastic protrusions 40, and the elastic protrusions 40 can abut against the sliding member 31.

Specifically, the position of elastic bulge 40 corresponds the setting with the 50 positions of joint groove, and elastic bulge 40 can stretch into in the baffle 12 when with the drive division 35 butt, moves the back at drive division 35, and elastic bulge 40 resumes to stretching out the baffle 12 outside, through setting up elastic bulge 40 for drive division 35 can be accurate the location between two baffling parts 41, so that connecting piece 13 orders about installed part 14 and toward being close to or keeping away from the removal of portion 21 direction.

Referring to fig. 6, the mounting member 14 is provided with an abutting projection 43, the blocking member 41 and the case 11 are provided with an abutting groove 51 engaged with the abutting projection 43, and the slider 31 is mounted on the blocking member 41 by engaging the abutting projection 43 with the abutting groove 51.

Specifically, butt groove 51 sets up at separation 41 both ends and the portion 21 both ends that holds, butt arch 43 sets up at installed part 14 both ends, butt arch 43 is the parallel and level with separation 41 when cooperating with butt groove 51, avoid butt arch 43 to stretch out the portion 21 that holds, influence the user and press from both sides thick film wafer resistor, cooperate with the butt piece through butt arch 43, make installed part 14 hang on separation 41 and box 11, make installed part 14 and the portion 21 bottom of holding have the clearance on the one hand, be convenient for connecting piece 13 slides in the portion 21 that holds, thereby move to arbitrary holding 10 below, on the other hand be convenient for installed part 14 and separation 41, thereby be convenient for connecting piece 13 orders about installed part 14 and moves toward being close to or keeping away from the portion 21 direction that holds.

Further, a plurality of limiting protrusions 52 are arranged on the mounting part 14, an accommodating space is formed by the limiting protrusions 52 and the mounting part 14 or the two limiting protrusions 52 in a mutually surrounding manner, and the accommodating part 10 is located in the accommodating space.

Specifically, installed part 14U-shaped design to the holding member 10 of protection installed part 14 both sides does not collide with accommodating part 21, and the reducing wear, spacing arch 52 and installed part 14 all are equipped with the butt piece near spacing arch 52 one side, and the butt piece has elasticity, and when holding member 10 was located accommodation space, the butt piece was with holding member 10 butt, thereby will hold member 10 and fix on installed part 14.

It should also be noted that while the embodiments of the present application have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the application, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. A thick film die resistor receiving apparatus comprising a plurality of receptacles (10) for placing thick film die resistors, characterized by further comprising:

the box body (11), a containing cavity (20) with an opening at one side is arranged in the box body (11), a partition plate (12) is arranged in the containing cavity (20), and the containing cavity (20) is divided into a containing part (21) and a sliding part (22) which are communicated with each other by the partition plate (12);

the connecting piece (13) is slidably arranged in the accommodating part (21), the end part of the connecting piece (13) extends into the sliding part (22), and the connecting piece (13) can move towards or away from the accommodating cavity (20);

a plurality of mounting members (14), a plurality of the mounting members (14) being slidably mounted in the accommodating portions (21), a plurality of the accommodating members (10) being mounted on the mounting members (14);

a drive assembly (30), wherein the drive assembly (30) is slidably arranged in the sliding part (22) and is in driving connection with the connecting piece (13).

2. A thick film chip resistor holder according to claim 1 wherein said drive assembly (30) comprises

A slider (31), said slider (31) being slidably mounted within said sliding portion (22);

the lifting motor (32), the said lifting motor (32) is fixedly mounted in the said slide (31);

dwang (33), dwang (33) one end with elevator motor (32) output shaft fixed connection, the other end with connecting piece (13) threaded connection.

3. A thick film chip resistor receiving device according to claim 2, wherein the sliding member (31) comprises a connecting portion (34) and a driving portion (35), the connecting portion (34) is U-shaped, the end of the connecting member (13) extends into the connecting portion (34) and is slidably connected with the connecting portion (34), the lifting motor (32) is fixedly installed in the driving portion (35), and the rotating rod (33) extends into the connecting portion (34) and is threadedly connected with the connecting member (13).

4. A thick film chip resistor housing apparatus according to claim 3, wherein said drive portion (35) is configured to extend beyond said slide portion (22), said slide portion (22) having a switch (15) electrically connected to said lift motor (32).

5. The thick film chip resistor accommodating device according to claim 4, wherein there are two driving assemblies (30) and two sliding portions (22), the sliding portions (22) are symmetrically disposed on two sides of the accommodating portion (21), the two driving assemblies (30) are correspondingly mounted in the two sliding portions (22), the connecting member (13) is located in the accommodating portion (21), and two end portions of the connecting member extend into the connecting portion (34) to be in threaded connection with the rotating rod (33).

6. A thick film chip resistor storage device according to claim 5, wherein said switches (15) are provided on both of said drive portions (35), and when both of said switches (15) are simultaneously depressed, both of said lift motors (32) are energized to form a circuit.

7. A thick film chip resistor housing apparatus according to claim 2, wherein said housing portion (21) is further provided with a plurality of resilient projections (40), said resilient projections (40) being adapted to abut said slide member (31).

8. The thick film chip resistor storage device of claim 2, further comprising a plurality of blocking members (41), wherein the partition plate (12) is provided with a clamping groove (50), the blocking members (41) are provided with clamping protrusions (42), and the blocking members (41) are installed in the accommodating portion (21) through the clamping protrusions (42) and the clamping grooves (50) in a matching manner.

9. A thick film chip resistor receiver according to claim 8, wherein said mounting member (14) is provided with an abutment projection (43), said barrier member (41) and said case (11) are provided with an abutment groove (51) for engaging with said abutment projection (43), and said slide member (31) is mounted on said barrier member (41) by engaging said abutment projection (43) with said abutment groove (51).

10. A thick film chip resistor receiver according to claim 1, wherein the mounting member (14) is provided with a plurality of limiting protrusions (52), the limiting protrusions (52) and the mounting member (14) or two limiting protrusions (52) mutually enclose to form a receiving space, and the receiving member (10) is located in the receiving space.

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