CN117944992A - Electronic component conveyer - Google Patents

Abstract

The invention discloses an electronic component transportation device, which relates to the field of electronic component transportation and comprises a shell mechanism, a shell mechanism and a control mechanism, wherein the shell mechanism comprises a bottom shell, a top shell positioned at the outer side of the bottom shell, a hinge positioned between the bottom shell and the top shell, a lining plate positioned at the inner side of the bottom shell, a cleaning plate positioned on the surface of the lining plate and a clamping piece positioned at the outer side of the bottom shell; and the fixing mechanism comprises a base positioned on the bottom surface of the bottom shell, and a rotating piece is connected inside the base. According to the invention, through the transmission cooperation of the fixing piece, the rotating piece, the traction piece and the supporting rod, the restriction and fixation of the electronic components can be synchronously released while the top shell is opened and closed, so that the normal transportation safety of the electronic components is ensured, the placing and taking processes of the electronic components are simpler and faster, and the use adaptability and convenience between the transportation device and the electronic components are improved.

Description

Electronic component conveyer

Technical Field

The invention relates to the field of transportation, in particular to the transportation of electronic components.

Background

The electronic component is a component part of an electronic element or an instrument and meter, and the inside of the electronic component is of a precise structure, so that a special conveying device is usually arranged in the carrying and conveying process of the electronic component so as to ensure the conveying safety of the electronic component, the conventional electronic component conveying device generally needs to independently operate a fixing mechanism before and after the electronic component is placed, so that the locking and unlocking of the electronic component are realized, but the structure makes the placing process of the electronic component complicated, and causes certain inconvenience to the placing and taking of the electronic component, so that the electronic component conveying device is provided.

Disclosure of Invention

The present invention has been made in view of the above-mentioned problems occurring in the prior art.

Therefore, the invention aims to solve the problem of complex operation of the fixing mechanism of the conveying device in the prior art.

In order to solve the technical problems, the invention provides the following technical scheme: the electronic component transportation device comprises a shell mechanism, a shell mechanism and a control mechanism, wherein the shell mechanism comprises a bottom shell, a top shell positioned at the outer side of the bottom shell, a hinge positioned between the bottom shell and the top shell, a lining plate positioned at the inner side of the bottom shell, a cleaning plate positioned on the surface of the lining plate and a clamping piece positioned at the outer side of the bottom shell; and

The fixing mechanism comprises a base positioned on the bottom surface of the bottom shell, a rotating piece is connected to the inside of the base, a torsion spring is arranged on the outer side of the rotating piece, a fixing piece is arranged on the outer side of the top of the rotating piece, a traction rope is connected to the periphery of the rotating piece, and a traction piece is connected to the tail end of the traction rope.

As a preferable mode of the electronic component transporting apparatus of the present invention, wherein: the bottom shell and the top shell are rotatably connected through a hinge, and the bottom shell is matched with the top shell in size and shape.

As a preferable mode of the electronic component transporting apparatus of the present invention, wherein: the rotating piece comprises a rotating table, a rotating disc is fixed at the top of the rotating table, and a control opening is formed in the surface of the rotating disc;

The rotating table is in rotating fit with the base;

the control ports are distributed on the rotating disc in a ring-shaped array, and are arranged in a fan shape;

the two ends of the torsion spring piece are respectively fixed with the rotating table and the base.

As a preferable mode of the electronic component transporting apparatus of the present invention, wherein: the fixing pieces are arranged in an annular array at the periphery of the rotating disc;

the fixing piece comprises a fixing rod, a driving block is arranged at the bottom of the fixing rod, and a tensioning spring is arranged at the outer side of the fixing rod;

the driving block is positioned in the control port, and the driving block and the control port are arranged in a matched manner;

the bottom of the lining plate is provided with a connecting block matched with the tension spring, and the tension spring is arranged between the connecting block and the fixed rod;

The inside of welt is provided with the spout, block cooperation between spout and the dead lever.

As a preferable mode of the electronic component transporting apparatus of the present invention, wherein: and a supporting plate is arranged on the inner wall of the bottom shell.

As a preferable mode of the electronic component transporting apparatus of the present invention, wherein: the traction piece is arranged on the supporting plate;

the traction pieces are symmetrically arranged relative to the bottom shell, and the outer sides of the two traction pieces are connected with traction ropes;

Both the traction ropes are connected with the same side of the rotating table.

As a preferable mode of the electronic component transporting apparatus of the present invention, wherein: the traction piece comprises a rotating column, a lifting column penetrates through the rotating column, a spring is arranged at the bottom of the lifting column, and a positioning sleeve is arranged on the outer side of the lifting column.

As a preferable mode of the electronic component transporting apparatus of the present invention, wherein: a pushing groove is reserved in the rotary column;

a pushing column is arranged on the outer side of the lifting column;

The push column is in sliding fit with the push groove, and the push groove is arranged in a spiral inclined mode along the inner wall of the rotary column.

As a preferable mode of the electronic component transporting apparatus of the present invention, wherein: a positioning groove is reserved on the outer wall of the lifting column;

The inner side of the positioning sleeve is provided with a positioning block matched with the positioning groove.

As a preferable mode of the electronic component transporting apparatus of the present invention, wherein: the bottom surface of top shell is provided with the butt pole that cooperatees with the traction element.

The invention has the beneficial effects that: through the transmission cooperation of mounting, rotating piece, traction element and supporting the pole, when top shell switching, realization that can be synchronous is to the restriction of removing of electron components and parts and is fixed, when guaranteeing the normal transportation safety of electron components and parts for the process of taking is simpler swift to place of electron components and parts, has improved the use suitability and the convenience between conveyer and the electron components and parts.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Wherein:

Fig. 1 is a schematic structural diagram of an electronic component transportation device according to an embodiment of the present invention;

fig. 2 is a schematic diagram illustrating an assembly structure of a fixing mechanism and a bottom case in an electronic component transporting device according to an embodiment of the present invention;

FIG. 3 is an exploded view of a portion of a securing mechanism in an electronic component transportation device according to an embodiment of the present invention;

fig. 4 is a schematic structural cooperation diagram of a lining board and a fixing member in an electronic component transportation device according to an embodiment of the present invention;

fig. 5 is a schematic diagram of a connection structure between a fixing member and a chute in an electronic component transportation device according to an embodiment of the present invention;

fig. 6 is an exploded view of a traction member in an electronic component transportation device according to an embodiment of the present invention;

Fig. 7 is a schematic cross-sectional view of a traction member in an electronic component transportation device according to an embodiment of the present invention;

fig. 8 is a schematic diagram of a matching structure of a pallet and a traction member in an electronic component transportation device according to an embodiment of the present invention.

In the figure: 100. a housing mechanism; 101. a bottom case; 102. a top shell; 103. a hinge; 104. a lining plate; 105. a cleaning plate; 106. a clip; 200. a fixing mechanism; 201. a base; 202. a rotating member; 203. a torsion spring plate; 204. a fixing member; 2021. a rotating table; 2022. a rotating disc; 2023. a control port; 2041. a fixed rod; 2042. a driving block; 2043. tensioning the spring; 1041. a connecting block; 1042. a chute; 205. a traction rope; 206. a traction member; 1011. a supporting plate; 2061. a rotating column; 2062. lifting columns; 2063. a spring; 2064. a positioning sleeve; 20611. pushing grooves; 20621. pushing a column; 20622. a positioning groove; 20641. a positioning block; 107. and (5) abutting the rod.

Detailed Description

In order that the above-recited objects, features and advantages of the present invention will become more readily apparent, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present invention is not limited to the specific embodiments disclosed below.

In the following detailed description of the embodiments of the present invention, reference is made to the accompanying drawings, which form a part hereof, and in which are shown by way of illustration only, and in which is shown by way of illustration only, and in which the scope of the invention is not limited for ease of illustration. In addition, the three-dimensional dimensions of length, width and depth should be included in actual fabrication.

Further still, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic may be included in at least one implementation of the invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Examples

Referring to fig. 1, the present embodiment provides an electronic component transportation device.

The electronic component transportation device includes a housing mechanism 100.

Specifically, the casing mechanism 100 includes a bottom casing 101 that is concave in shape and sets up, and the top of bottom casing 101 is connected with top casing 102, be connected through hinge 103 between bottom casing 101 and the top casing 102, that is, bottom casing 101 and top casing 102 can carry out relative rotation through hinge 103, in order to satisfy the needs of opening and shutting of casing mechanism 100, and the welt 104 that supplies electronic component to place is installed to the inner wall of bottom casing 101, simultaneously the surface center department of welt 104 has installed the cleaning plate 105 that can wipe electronic component, bottom casing 101 and top casing 102 homonymy outer wall install fastener 106, the pin thread and the box of fastener 106 are fixed respectively on the outer wall of bottom casing 101 and top casing 102, accomplish the locking closure of bottom casing 101 and top casing 102 through pin thread and box cooperation.

Further, the bottom shell 101 is matched with the top shell 102 in size and shape, so that the bottom shell 101 and the top shell 102 can be integrally sealed when in contact, when the electronic components are transported, the electronic components are placed on the lining plate 104, the bottom shell 101 and the top shell 102 are relatively rotated and closed, and the electronic components can be carried and transported by locking and limiting through the clamping piece 106.

Examples

Referring to fig. 1 to 5, a second embodiment of the present invention is based on the previous embodiment, and is different from the previous embodiment in that:

The electronic component transportation device further includes a fixing mechanism 200.

Specifically, the fixing mechanism 200 includes a base 201 fixed at the center of the concave bottom surface of the bottom shell 101, a rotating member 202 penetrates through the base 201, the base 201 and the rotating member 202 are relatively rotated, and meanwhile, the rotating member 202 and the base 201 are axially locked, so that the rotating member 202 can rotate in the base 201 and is not separated from the connection between the rotating member 202, a torsion spring piece 203 is further connected between the rotating member 202 and the base 201, and four groups of fixing members 204 are further arranged on the periphery of the top of the rotating member 202 in an annular array.

Further, the rotating member 202 includes a rotating table 2021 with a bottom penetrating into the base 201, a rotating disc 2022 is coaxially disposed on the top of the rotating table 2021, and a control opening 2023 matched with the fixing member 204 is formed on the surface of the rotating disc 2022 in an annular array.

The fixing piece 204 includes a 3-shaped fixing rod 2041 penetrating through the lining board 104, a driving block 2042 is integrally provided at the front end of the bottom of the fixing rod 2041, the driving block 2042 is located inside the control port 2023, the driving block 2042 and the control port 2023 are cooperatively arranged, the driving block 2042 can be controlled by the control port 2023, and a tension spring 2043 is provided at the outer side of the middle section of the fixing rod 2041.

Furthermore, a connecting block 1041 matched with the tensioning spring 2043 is disposed at the bottom of the lining board 104, the tensioning spring 2043 is disposed between the connecting block 1041 and the fixing rod 2041, the tensioning spring 2043 can provide elastic traction force for the fixing rod 2041 according to its own characteristics, so that the fixing rod 2041 always has an adduction trend to meet the fixing requirement of the electronic component when being placed, and meanwhile, a plurality of sliding grooves 1042 engaged with the fixing rod 2041 are sequentially reserved in the lining board 104, and due to the arrangement of the sliding grooves 1042, the fixing rod 2041 always maintains the same horizontal height when the guiding requirement of the fixing rod 2041 is met during the moving of the fixing rod 2041, so as to ensure the normal use of the fixing rod 2041.

Preferably, the control opening 2023 is fan-shaped, and the two radial sides of the control opening 2023 along the rotating disc 2022 are respectively provided with a straight line and an arc line, so that when the driving block 2042 is located at one linear side of the control opening 2023, the driving block 2042 is not limited at this time, the fixing rod 2041 can smoothly move under the tensile force of the tensioning spring 2043, and when the control opening 2023 and the driving block 2042 relatively rotate, the driving block 2042 can be pushed to move by the arc line side of the control opening 2023, and meanwhile, the inward limitation of the driving block 2042 can be realized, so that the position of the fixing rod 2041 can be fixed, and the placement of electronic components before transportation is facilitated.

The two ends of the torsion spring 203 are respectively fixed with the rotating table 2021 and the base 201, and the torsion spring 203 extends to the periphery in a counterclockwise direction, so that when the rotating table 2021 rotates clockwise under the action of external force, the torsion spring 203 gradually tightens up, a backup reset elastic force can be generated for the rotating table 2021, and when the external force applied by the rotating table 2021 disappears, the torsion spring 203 can rotate and reset under the driving of the rotating elastic force of the torsion spring 203 so as to facilitate the subsequent use, meanwhile, the traction pulling force from the tensioning spring 2043 applied by the fixing rod 2041 needs to be overcome when the rotating disc 2022 rotates, so that the elastic force generated by the torsion spring 203 is greater than the self elastic force of the tensioning spring 2043 in order to ensure the smooth reset of the rotating disc 2022 and the rotating table 2021.

Examples

Referring to fig. 1 to 8, a third embodiment of the present invention is based on the previous embodiment, and is different from the previous embodiment in that:

The fixing mechanism 200 further includes a traction rope 205 connected to the periphery of the rotating member 202, and a traction member 206 is connected to the other end of the traction rope 205.

Specifically, the front inner wall of the bottom shell 101 is further fixed with a supporting plate 1011 symmetrically arranged, and the supporting plate 1011 is rotatably provided with a traction member 206, wherein the traction member 206 is embedded in the lining plate 104, so as to ensure stable rotation of the traction member 206.

The traction member 206 comprises a rotating column 2061 movably arranged on the supporting plate 1011, wherein a lifting column 2062 coaxially penetrates through the interior of the rotating column 2061, a spring 2063 is arranged at the bottom of the lifting column 2062, the other end of the spring 2063 is abutted against the supporting plate 1011 so as to realize elastic support of the lifting column 2062, and a positioning sleeve 2064 fixed on the inner wall of the bottom shell 101 is arranged on the outer side of the lifting column 2062.

Further, a pushing groove 20611 which is spirally inclined along the inner wall of the rotating column 2061 is reserved in the rotating column 2061, meanwhile, a pushing column 20621 which extends to the inside of the pushing groove 20611 is arranged on the outer side of the lifting column 2062, and the pushing column 20621 and the pushing groove 20611 are in sliding fit, so that when the lifting column 2062 is subjected to the action of external force to lift and move, the rotating column 2061 can rotate under the action of the pushing column 20621 to the pushing groove 20611 according to the spiral arrangement of the pushing groove 20611, and the matching requirement between the rotating column 2061 and the rotating piece 202 is met.

The outer wall of the lifting column 2062 is also provided with a positioning groove 20622, the inner side of the positioning sleeve 2064 is provided with a positioning block 20641 matched with the positioning groove 20622, the positioning block 20641 extends into the positioning groove 20622, and the axial rotation of the lifting column 2062 is locked through the matching between the positioning block 20641 and the positioning groove 20622, so that the lifting column 2062 can only perform axial lifting movement, and the stable rotation of the rotating column 2061 under the action of the lifting column 2062 is ensured.

The bottom surface of top shell 102 is provided with the butt pole 107 that cooperates with traction element 206, promptly when top shell 102 is closed, butt pole 107 and traction element 206 are in coaxial setting, and butt pole 107 can extrude lift post 2062, and then realizes the drive to cooperate between lift post 2062 and the column 2061 through the closure of top shell 102 for the whole motion of column 2061 can go on with the closure synchronization of top shell 102, thereby reaches the purpose that conveyer wholly uses more convenient.

Further, the outer sides of the two traction members 206 are connected with traction ropes 205, and meanwhile, the two traction members 205 are connected with the same side of the rotating table 2021, and the two traction members 206 are symmetrically arranged, so that the winding and unwinding directions of the two traction ropes 205 are opposite when the two rotating columns 2061 rotate, through the rotation arrangement of the rotating columns 2061, when the top shell 102 is closed, the two rotating columns 2061 synchronously rotate under the driving of the lifting columns 2062 which move downwards, the traction ropes 205 are wound, so that the traction rotation members 202 rotate clockwise, the fixing members 204 can move towards the center, the electronic components placed in the top shell 102 are fixed when the top shell 102 is closed, the electronic components can be synchronously and automatically fixed when the top shell 102 is closed, the fixing requirements of the electronic components with different sizes can be met, and the practicability and the use convenience of the device are improved.

When carrying the electronic components, the electronic components are placed at the center of the surface of the lining plate 104, then the top shell 102 is closed, along with the closing of the top shell 102, the supporting rod 107 can gradually squeeze the lifting column 2062, so that the rotating column 2061 rotates along with the downward movement of the lifting column 2062 and winds the traction rope 205, the traction rope 205 pulls the rotating member 202 to rotate clockwise, the driving block 2042 relatively moves to one side of the straight line of the control port 2023, at the moment, the driving block 2042 is not limited at all, the fixing rod 2041 can move towards the electronic components under the pulling force of the tensioning spring 2043, the clamping and fixing of the electronic components are realized, meanwhile, the inward pulling of the tensioning spring 2043 can meet the fixing requirements of electronic components with different sizes, when the driving block 2042 relatively moves to one side of the straight line of the control port 2023, the surface top shell 102 and the bottom shell 101 are closed, and the lifting column 2062 is closed by the clamping fastener 106, and a series of matching is completed;

when the transportation device is opened again, the supporting rod 107 is gradually far away from the lifting column 2062 along with the overturning of the top shell 102, at this time, the lifting column 2062 is reset under the action of the spring 2063, the rotating column 2061 synchronously rotates to release the traction rope 205, at this time, the restriction received by the rotating member 202 disappears, that is, the resetting occurs under the action of the torsion spring piece 203, and meanwhile, the fixing member 204 is moved to the furthest end under the action of the control port 2023, so that the restriction on electronic components is released, and the electronic components can be taken at any time. Through the transmission cooperation of mounting 204, rotating member 202, traction member 206 and butt pole 107, when top shell 102 switching, realization that can be synchronous is to the restriction of removing and is fixed of electron components and parts, when guaranteeing the normal transportation safety of electron components and parts for the process of taking is simpler swift to place of electron components and parts, has improved the use suitability and the convenience between conveyer and the electron components and parts.

Claims (10)

1. An electronic components conveyer, its characterized in that: comprising the steps of (a) a step of,

The shell mechanism (100) comprises a bottom shell (101), a top shell (102) positioned outside the bottom shell (101), a hinge (103) positioned between the bottom shell (101) and the top shell (102), a lining plate (104) positioned inside the bottom shell (101), a cleaning plate (105) positioned on the surface of the lining plate (104) and a clamping piece (106) positioned outside the bottom shell (101); and

Fixed establishment (200), including being located base (201) of drain pan (101) bottom surface, the internal connection of base (201) has rotation piece (202), the outside of rotation piece (202) is provided with torsion reed (203), the top outside of rotation piece (202) is provided with mounting (204), the periphery of rotation piece (202) is connected with haulage rope (205), the end-to-end connection of haulage rope (205) has haulage piece (206).

2. The electronic component transportation device according to claim 1, wherein: the bottom shell (101) and the top shell (102) are rotatably connected through a hinge (103), and the bottom shell (101) is matched with the top shell (102) in size and shape.

3. The electronic component transportation device according to claim 1 or 2, characterized in that: the rotating piece (202) comprises a rotating table (2021), a rotating disc (2022) is fixed at the top of the rotating table (2021), and a control opening (2023) is formed in the surface of the rotating disc (2022);

the rotating table (2021) is in rotating fit with the base (201);

the control ports (2023) are distributed on the rotating disc (2022) in an annular array, and the control ports (2023) are arranged in a fan shape;

Both ends of the torsion spring piece (203) are respectively fixed with the rotating table (2021) and the base (201).

4. The electronic component transportation device according to claim 3, wherein: the fixing pieces (204) are arranged in an annular array on the periphery of the rotating disc (2022);

the fixing piece (204) comprises a fixing rod (2041), a driving block (2042) is arranged at the bottom of the fixing rod (2041), and a tensioning spring (2043) is arranged on the outer side of the fixing rod (2041);

The driving block (2042) is positioned in the control port (2023), and the driving block (2042) and the control port (2023) are arranged in a matched mode;

the bottom of the lining plate (104) is provided with a connecting block (1041) matched with a tensioning spring (2043), and the tensioning spring (2043) is arranged between the connecting block (1041) and the fixed rod (2041);

A sliding groove (1042) is formed in the lining plate (104), and the sliding groove (1042) is matched with the fixing rod (2041) in a clamping mode.

5. The electronic component transportation device according to claim 4, wherein: a supporting plate (1011) is arranged on the inner wall of the bottom shell (101).

6. The electronic component transportation device according to claim 5, wherein: the traction piece (206) is arranged on the supporting plate (1011);

The traction pieces (206) are symmetrically arranged relative to the bottom shell (101), and traction ropes (205) are connected to the outer sides of the two traction pieces (206);

Both haulage ropes (205) are connected to the same side of the turntable (2021).

7. The electronic component transportation device according to claim 1 or 6, wherein: the traction piece (206) comprises a rotating column (2061), a lifting column (2062) penetrates through the rotating column (2061), a spring (2063) is arranged at the bottom of the lifting column (2062), and a positioning sleeve (2064) is arranged on the outer side of the lifting column (2062).

8. The electronic component transportation device according to claim 7, wherein: a pushing groove (20611) is reserved in the rotary column (2061);

a pushing column (20621) is arranged on the outer side of the lifting column (2062);

the pushing column (20621) is in sliding fit with the pushing groove (20611), and the pushing groove (20611) is arranged in a spiral inclined mode along the inner wall of the rotating column (2061).

9. The electronic component transportation device according to claim 8, wherein: a positioning groove (20622) is reserved on the outer wall of the lifting column (2062);

A positioning block (20641) matched with the positioning groove (20622) is arranged on the inner side of the positioning sleeve (2064).

10. The electronic component transportation device according to claim 9, wherein: the bottom surface of top shell (102) is provided with support pole (107) that cooperates with traction element (206).